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@@ -3,22 +3,18 @@ import math
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import os
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import re
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import shutil
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-import threading
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import time
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-from concurrent.futures import ProcessPoolExecutor, as_completed, ThreadPoolExecutor
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+from concurrent.futures import ProcessPoolExecutor, as_completed
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import jieba
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import redis
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-from bitarray import bitarray
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from tqdm import tqdm
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import utils
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-import logging
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-
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from constant import FILE_LONG_TAIL_MERGE
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# 文件:长尾词_合并_分词.txt
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-FILE_LONG_TAIL_MERGE_SPLIT = "长尾词_合并_分词.txt"
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+FILE_LONG_TAIL_MERGE_STEM = "长尾词_合并_分词.txt"
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# 文件:长尾词_合并_聚合.txt
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FILE_LONG_TAIL_MERGE_AGG = "长尾词_合并_聚合.txt"
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@@ -33,29 +29,22 @@ FILE_LONG_TAIL_MERGE_REVERSE_INDEX = "长尾词_合并_倒排索引.txt"
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FILE_LONG_TAIL_MERGE_AGG_PID = "长尾词_合并_聚合_%s_%s.txt"
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# 缓存前缀:分词词根
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-CACHE_WORD_STEM = "word:stem"
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+CACHE_WORD_STEM = "word:stem:%s"
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# 缓存前缀:倒排索引
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-CACHE_WORD_REVERSE_INDEX = "word:reverse_index"
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+CACHE_WORD_REVERSE_INDEX = "word:reverse_index:%s"
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# 缓存:长尾词缓存
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-CACHE_WORD = "word"
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+CACHE_WORD = "word:normal_index:%s"
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# 缓存:聚合位图
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-CACHE_UNUSED_BITMAP = "unused_bitmap"
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+CACHE_UNUSED_BITMAP = "word:bitmap"
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# 字符集:UTF-8
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CHARSET_UTF_8 = "UTF-8"
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-# redis缓存池
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-redis_pool: redis.ConnectionPool = None
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-
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-# 线程池
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-thread_pool: ThreadPoolExecutor = None
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-
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-# 线程本地变量
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-local_var = threading.local()
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-
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+# 正则表达式:聚合文件分文件
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+agg_file_pattern = re.compile(r"长尾词_合并_聚合_\d+_\d+.txt", re.I)
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def agg_word(file_path: str):
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"""
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@@ -74,24 +63,11 @@ def agg_word(file_path: str):
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# 每份任务计算量
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task_cal_num = 10000
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- # 工作现成(减1是为了留一个处理器给redis)
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- worker_num = os.cpu_count() - 1
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- # worker_num = 1
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-
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- # 正则表达式:聚合文件分文件
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- agg_file_pattern = re.compile(r"长尾词_合并_聚合_\d+_\d+.txt", re.I)
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-
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- # 最大线程数
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- max_threads = 2
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-
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- # redis最大连接数(和工作线程数保持一致,免得浪费)
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- redis_max_conns = max_threads
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-
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# redis缓存
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- m_redis_cache = redis.StrictRedis(host='127.0.0.1', port=6379)
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+ redis_cache = redis.StrictRedis(host='127.0.0.1', port=6379, decode_responses=True)
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# 判断文件是否存在
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- for file_name in [FILE_LONG_TAIL_MERGE, FILE_LONG_TAIL_MERGE_SPLIT,
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+ for file_name in [FILE_LONG_TAIL_MERGE, FILE_LONG_TAIL_MERGE_STEM,
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FILE_LONG_TAIL_MERGE_REVERSE_INDEX]:
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input_file = os.path.join(file_path, file_name)
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if os.path.exists(input_file) and not os.path.isfile(input_file):
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@@ -105,91 +81,81 @@ def agg_word(file_path: str):
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for history_agg_file in history_agg_file_list:
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shutil.move(os.path.join(file_path, history_agg_file), archive_path)
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- # 缓存关键词位置
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- # word_file = os.path.join(file_path, FILE_LONG_TAIL_MERGE)
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- # word_dict = {}
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- # with open(word_file, "r", encoding="utf-8") as f:
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- # for position, word in enumerate(f, start=1):
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- # word = utils.remove_line_break(word)
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- # if not word:
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- # continue
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- # word_dict[position] = word
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- # m_redis_cache.hset(CACHE_WORD, mapping=word_dict)
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- # # 记录总关键词数
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- # word_total_num = len(word_dict)
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- # # 释放内存
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- # del word_dict
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- #
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- # # 缓存分词
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- # word_split_file = os.path.join(file_path, FILE_LONG_TAIL_MERGE_SPLIT)
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- # word_split_dict = {}
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- # with open(word_split_file, "r", encoding=CHARSET_UTF_8) as f:
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- # for position, word_split_line in enumerate(f, start=1):
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- # word_split_line = utils.remove_line_break(word_split_line)
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- # if not word_split_line:
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- # continue
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- # word_split_dict[position] = word_split_line
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- # m_redis_cache.hset(CACHE_WORD_STEM, mapping=word_split_dict)
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- # # 释放内存
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- # del word_split_dict
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- #
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- # # 缓存倒排索引
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- # word_reverse_index_file = os.path.join(file_path, FILE_LONG_TAIL_MERGE_REVERSE_INDEX)
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- # word_reverse_index_dict = {}
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- # # 分词
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- # key_pattern = re.compile(r"([^,]+),\[", re.I)
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- # # 索引
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- # index_pattern = re.compile(r"\d+", re.I)
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- # with open(word_reverse_index_file, "r", encoding="utf-8") as f:
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- # for word_split_line in f:
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- # key_m = key_pattern.match(word_split_line)
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- # key = key_m.group(1)
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- # val = index_pattern.findall(word_split_line[word_split_line.index(","):])
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- # word_reverse_index_dict[key] = ",".join(val)
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- # m_redis_cache.hset(CACHE_WORD_REVERSE_INDEX, mapping=word_reverse_index_dict)
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- # # 释放内存
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- # del word_reverse_index_dict
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-
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- # 先清除,然后重新构建长尾词使用位图
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- m_redis_cache.delete(CACHE_UNUSED_BITMAP)
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- m_redis_cache.setbit(CACHE_UNUSED_BITMAP, word_total_num + 2, 1)
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+ with redis_cache.pipeline(transaction=False) as redis_pipeline:
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+ # 删除历史缓存
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+ keys = redis_cache.keys("word*")
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+ for key in keys:
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+ redis_pipeline.delete(key)
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+ redis_pipeline.execute()
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+
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+ # 缓存关键词位置
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+ word_file = os.path.join(file_path, FILE_LONG_TAIL_MERGE)
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+ word_dict = {}
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+ with open(word_file, "r", encoding="utf-8") as f:
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+ for position, word in enumerate(f, start=1):
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+ word = utils.remove_line_break(word)
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+ if not word:
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+ continue
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+ word_dict[CACHE_WORD % position] = word
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+ redis_cache.mset(mapping=word_dict)
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+ # 记录总关键词数
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+ word_total_num = len(word_dict)
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+ # 释放内存
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+ del word_dict
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+
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+ # 缓存分词
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+ word_stem_file = os.path.join(file_path, FILE_LONG_TAIL_MERGE_STEM)
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+ with open(word_stem_file, "r", encoding=CHARSET_UTF_8) as f:
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+ for position, word_stem_line in enumerate(f, start=1):
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+ word_stem_line = utils.remove_line_break(word_stem_line)
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+ if not word_stem_line:
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+ continue
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+ redis_key = CACHE_WORD_STEM % position
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+ for word_stem in word_stem_line.split(","):
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+ redis_pipeline.lpush(redis_key, word_stem)
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+ redis_pipeline.execute()
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+
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+ # 缓存倒排索引
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+ word_reverse_index_file = os.path.join(file_path, FILE_LONG_TAIL_MERGE_REVERSE_INDEX)
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+ # 分词
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+ key_pattern = re.compile(r"([^,]+),\[", re.I)
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+ # 索引
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+ index_pattern = re.compile(r"\d+", re.I)
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+ with open(word_reverse_index_file, "r", encoding="utf-8") as f:
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+ for word_stem_line in f:
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+ key_m = key_pattern.match(word_stem_line)
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+ key = key_m.group(1)
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+ val = index_pattern.findall(word_stem_line[word_stem_line.index(","):])
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+ redis_pipeline.sadd(CACHE_WORD_REVERSE_INDEX % key, val)
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+ redis_pipeline.execute()
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+
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+ # 先清除,然后重新构建长尾词使用位图
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+ redis_pipeline.delete(CACHE_UNUSED_BITMAP)
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+ redis_pipeline.setbit(CACHE_UNUSED_BITMAP, word_total_num + 2, 1)
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+ redis_pipeline.execute()
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- # 提交任务 并输出结果
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- word_agg_file = os.path.join(file_path, FILE_LONG_TAIL_MERGE_AGG)
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+ return
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- with ProcessPoolExecutor(max_workers=worker_num, initializer=init_process,
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- initargs=(redis_max_conns, max_threads, file_path)) as process_pool:
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- # 计算任务边界
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- task_list = utils.avg_split_task(word_total_num, task_cal_num, 1)
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+ # subprocess.run(["java", "-jar", "D:\\Documents\\ChenYL\\CodeRepository\\money-mining-java\\target\\money-mining-1.0-SNAPSHOT.jar"])
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- # 提交任务
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- process_futures = []
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- for skip_line, pos in enumerate(task_list, start=1):
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- skip_line = (skip_line % worker_num) + 1
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- p_future = process_pool.submit(agg_word_process, agg_threshold, pos[0], pos[1], word_total_num,
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- skip_line)
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- process_futures.append(p_future)
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-
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- # 显示任务进度
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- with tqdm(total=len(process_futures), desc='文本聚合进度', unit='份', unit_scale=True) as pbar:
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- for p_future in as_completed(process_futures):
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- p_result = p_future.result()
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- # 更新发呆进度
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- pbar.update(1)
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-
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- # 关闭线程
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- process_pool.shutdown()
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+ # 获取分结果文件列表并合并
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+ result_list = [file for file in os.listdir(file_path) if agg_file_pattern.match(file)]
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- # 获取子进程结果文件列表,并合并
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- with open(word_agg_file, "w", encoding="UTF-8") as fo:
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- for file in os.listdir(file_path):
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- # 不是处理结果部分跳过
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- if not agg_file_pattern.match(file):
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- continue
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+ if not result_list:
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+ print("没有找到待合并的计算结果分文件")
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+ return
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+
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+ # 提交任务 并输出结果
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+ word_agg_file = os.path.join(file_path, FILE_LONG_TAIL_MERGE_AGG)
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+ # 显示任务进度,
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+ with (tqdm(total=len(result_list), desc='主进程:合并分文件', unit='份', unit_scale=True) as pbar,
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+ open(word_agg_file, "w", encoding="UTF-8") as fo):
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+ for file in result_list:
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with open(os.path.join(file_path, file), "r", encoding="UTF-8") as fi:
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for word in fi:
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fo.write(word)
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+ pbar.update(1)
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def prepare_word_split_and_reverse_index(file_path: str):
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@@ -235,7 +201,7 @@ def prepare_word_split_and_reverse_index(file_path: str):
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# 分词结果排序
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p_result_list = sorted(p_result_list, key=lambda v: v[0])
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# 输出分词结果
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- split_output_file = os.path.join(file_path, FILE_LONG_TAIL_MERGE_SPLIT)
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+ split_output_file = os.path.join(file_path, FILE_LONG_TAIL_MERGE_STEM)
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with open(split_output_file, "w", encoding="UTF-8") as fo:
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for start_pos, word_arr_list, reverse_index in p_result_list:
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for word_arr in word_arr_list:
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@@ -315,174 +281,3 @@ def word_split_reverse(input_file: str, start_pos: int, end_pos: int):
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word_arr_list.append(word_filter_arr)
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return start_pos, word_arr_list, word_reverse_index
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-
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-
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-def init_process(max_conns: int, max_threads: int, file_path: str):
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- """
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- 初始化进程
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- :param max_conns: redis最大连接数量
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- :param max_threads: 线程最大数量
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- :param file_path: 输出文件路径
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- :return:
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- """
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- # redis缓存池 初始化
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- global redis_pool
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- redis_pool = redis.ConnectionPool(host='127.0.0.1', port=6379, max_connections=max_conns)
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-
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- global thread_pool
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- thread_pool = ThreadPoolExecutor(max_threads, initializer=init_thread, initargs=(file_path,))
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-
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-
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-def agg_word_process(agg_threshold: float, start_pos: int, end_pos: int, final_pos: int,
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- skip_line: int):
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- """
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- 长尾词聚合处理
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- :param agg_threshold: 聚合阈值
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- :param start_pos: 任务处理开始边界(包含)
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- :param end_pos: 任务处理结束边界(不包含)
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- :param final_pos: 总任务边界
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- :param skip_line: 进度条显示位置
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- :return:
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- """
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-
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- # 进度长度
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- process_len = 0
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- if end_pos == -1:
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- process_len = final_pos - start_pos
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- else:
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- process_len = end_pos - start_pos
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-
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- with tqdm(total=process_len, desc='子进程-%s:文本聚合进度' % os.getpid(), unit='份', unit_scale=True,
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- position=skip_line) as pbar:
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-
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- thread_futures = [thread_pool.submit(agg_word_thread, main_word_position, agg_threshold) for main_word_position
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- in
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- range(start_pos, end_pos)]
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-
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- for t_future in as_completed(thread_futures):
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- t_result = t_future.result()
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- # 更新发呆进度
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- pbar.update(1)
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-
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- return
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-
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-
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-def init_thread(file_path: str):
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- """
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- 聚合线程初始化
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- :param file_path: 输出文件路径
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- :return:
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- """
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- # 初始化redis客户端
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- local_var.redis_cache = redis.StrictRedis(connection_pool=redis_pool)
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- # 初始化redis管道
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- local_var.redis_pipeline = local_var.redis_cache.pipeline(transaction=False)
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-
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- # 生成临时结果文件
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- word_agg_file = os.path.join(file_path,
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- FILE_LONG_TAIL_MERGE_AGG_PID % (os.getpid(), threading.current_thread().ident))
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- local_var.file_writer = open(word_agg_file, "w", encoding=CHARSET_UTF_8)
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-
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- # 已使用位图副本
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- local_var.unused_bitmap = bitarray()
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-
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- # 从倒排索引中获取候选词的位置索引
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- local_var.candidate_position_set = set()
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-
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- # 结果列表
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- local_var.result_list = []
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-
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-
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-def agg_word_thread(main_word_position: int, agg_threshold: float):
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- try:
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- # 获取已使用位图副本
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- local_var.unused_bitmap.frombytes(local_var.redis_cache.get(CACHE_UNUSED_BITMAP))
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|
-
|
|
|
- # 判断主词是否为已使用,是则跳过,否则设置为已使用
|
|
|
- if local_var.unused_bitmap[main_word_position]:
|
|
|
- return
|
|
|
- else:
|
|
|
- local_var.redis_cache.setbit(CACHE_UNUSED_BITMAP, main_word_position, 1)
|
|
|
- local_var.unused_bitmap[main_word_position] = 1
|
|
|
-
|
|
|
- # 获取主词和对应的词根
|
|
|
- local_var.redis_pipeline.hget(CACHE_WORD, main_word_position)
|
|
|
- local_var.redis_pipeline.hget(CACHE_WORD_STEM, main_word_position)
|
|
|
- main_result = local_var.redis_pipeline.execute()
|
|
|
- main_word = main_result[0]
|
|
|
- main_word_stem = main_result[1]
|
|
|
-
|
|
|
- # 如果存在为空则返回
|
|
|
- if not main_word or not main_word_stem:
|
|
|
- return
|
|
|
-
|
|
|
- main_word_stem_list = main_word_stem.decode(CHARSET_UTF_8).split(",")
|
|
|
-
|
|
|
- # 从倒排索引获取长尾词位置
|
|
|
- temp_candidate_position_list = local_var.redis_cache.hmget(CACHE_WORD_REVERSE_INDEX, main_word_stem_list)
|
|
|
- for temp_candidate_position in temp_candidate_position_list:
|
|
|
- if not temp_candidate_position:
|
|
|
- continue
|
|
|
- # 排除已聚合
|
|
|
- for candidate_position in temp_candidate_position.decode(CHARSET_UTF_8).split(","):
|
|
|
- if local_var.unused_bitmap[int(candidate_position)]:
|
|
|
- continue
|
|
|
- local_var.candidate_position_set.add(candidate_position)
|
|
|
-
|
|
|
- # 没有找到需要计算的候选词则跳过
|
|
|
- if not local_var.candidate_position_set:
|
|
|
- return
|
|
|
-
|
|
|
- # 从缓存获取关键词列表、分词列表,如果为空则跳过
|
|
|
- local_var.redis_pipeline.hmget(CACHE_WORD, local_var.candidate_position_set)
|
|
|
- local_var.redis_pipeline.hmget(CACHE_WORD_STEM, local_var.candidate_position_set)
|
|
|
- candidate_result = local_var.redis_pipeline.execute()
|
|
|
- candidate_word_cache_list = candidate_result[0]
|
|
|
- candidate_word_stem_cache_list = candidate_result[1]
|
|
|
- if not candidate_word_cache_list or not candidate_word_stem_cache_list:
|
|
|
- return
|
|
|
-
|
|
|
- # 延后编码成字符,以防前面直接返回
|
|
|
- main_word = main_word.decode(CHARSET_UTF_8)
|
|
|
-
|
|
|
- # 计算相似度
|
|
|
- for candidate_position in range(len(local_var.candidate_position_set)):
|
|
|
-
|
|
|
- # 获取关键词、分词,如果存在为空则跳过
|
|
|
- candidate_word = candidate_word_cache_list[int(candidate_position)]
|
|
|
- if not candidate_word:
|
|
|
- continue
|
|
|
- candidate_word_stem = candidate_word_stem_cache_list[int(candidate_position)]
|
|
|
- if not candidate_word_stem:
|
|
|
- continue
|
|
|
- candidate_word = candidate_word.decode(CHARSET_UTF_8)
|
|
|
- candidate_word_stem_list = candidate_word_stem.decode(CHARSET_UTF_8).split(",")
|
|
|
-
|
|
|
- # 计算相关性
|
|
|
- try:
|
|
|
- val = utils.cal_cos_sim(main_word, main_word_stem_list, candidate_word,
|
|
|
- candidate_word_stem_list)
|
|
|
- if val >= agg_threshold:
|
|
|
- local_var.redis_cache.setbit(CACHE_UNUSED_BITMAP, candidate_position, 1)
|
|
|
- local_var.result_list.append(candidate_word)
|
|
|
- except Exception as e:
|
|
|
- logging.error("主关键词:%s 发生异常,涉及的副关键词信息-关键词:%s,分词:%s" % (
|
|
|
- main_word, candidate_word, candidate_word_stem_list), e)
|
|
|
-
|
|
|
- # 保存结果
|
|
|
- if not local_var.result_list:
|
|
|
- return
|
|
|
- local_var.file_writer.write("%s\n" % main_word)
|
|
|
- for candidate_word in local_var.result_list:
|
|
|
- local_var.file_writer.write("%s\n" % candidate_word)
|
|
|
- local_var.file_writer.write("\n")
|
|
|
-
|
|
|
- except Exception as e:
|
|
|
- logging.error("子进程发生异常", e)
|
|
|
- finally:
|
|
|
- # 清除容器数据
|
|
|
- local_var.candidate_position_set.clear()
|
|
|
- local_var.result_list.clear()
|
|
|
- local_var.unused_bitmap.clear()
|
|
|
-
|
|
|
- return
|
ChenYL