from itertools import chain, islice, cycle
import datetime
from collections import Counter
from gm_types.gaia import DIARY_ORDER_TYPE
from gm_types.doris import ANSWER_SORT_TYPE
from gm_types.doris import ARTICLE_SORT_TYPE
from gm_types.mimas import CONTENT_CLASS
from gm_types.doris import CARD_TYPE
from gm_types.gaia import CITY_LEVEL
from gm_rpcd.all import bind
import traceback
from search.utils.diary import recall_diary
from search.utils.answer import recall_answers
from search.utils.article import recall_articles
from gm_rpcd.all import context
from libs.algorithms import drop_dup
from libs.cache import redis_client
from libs.error import logging_exception
from extend.models.gaia import City, CityScale
from extend.models.gold import (
QAQueue,
WikiQueue,
IconQueue,
UserTopicQueue,
DoctorTopicQueue,
DiaryQueue,
ArticleQueue,
AnswerQueue,
DeviceQAQueue,
DeviceIconQueue,
DeviceUserTopicQueue,
DeviceDoctorTopicQueue,
DeviceAnswerQueue,
DeviceArticleQueue,
DeviceDiaryQueue,
QuestionQueue,
DeviceQuestionQueue
)
import logging
import redis
import json
from django.conf import settings
import traceback
MAX_LOAD = 200
logger = logging.getLogger(__name__)
@bind("doris/recommend/get_diaries")
def get_diaries(tags, city, offset=0, size=10, city_tag_id=None):
# NOTE: city as city id
sort_params = {}
if city_tag_id:
sort_params["user_city_tag_id"] = city_tag_id
elif city:
try:
x = City.objects.get(id=city)
sort_params["user_city_tag_id"] = x.tag_id
except City.DoesNotExist:
pass
filters = {
"is_sink": False,
"has_before_cover": True,
"has_after_cover": True,
"content_level_is_good": True
}
if tags:
filters["closure_tag_ids"] = tags
tail = offset + size
diaries_ids = []
if tail < MAX_LOAD:
diaries = recall_diary(None, 0, 200, filters, DIARY_ORDER_TYPE.RECOMMEND, sort_params, fields=["id", "user.id"])
diaries_items = [(diary['id'], diary['user']['id']) for diary in diaries]
drop_dup_diaries = drop_dup(diaries_items)
drop_dup_size = len(drop_dup_diaries)
if tail <= drop_dup_size:
diaries_ids = [item[0] for item in drop_dup_diaries[offset:tail]]
if len(diaries_ids) == 0: # 如果头200条去重结束 后面的排序不去重
diaries = recall_diary(None, offset, size, filters, DIARY_ORDER_TYPE.RECOMMEND, sort_params, fields=["id"])
diaries_ids = [diary['id'] for diary in diaries]
return {"diaries_ids": diaries_ids}
@bind("doris/recommend/get_articles")
def get_articles(tags, offset=0, size=10):
filters = {
"content_level": [CONTENT_CLASS.EXCELLENT, CONTENT_CLASS.FINE]
}
if tags:
filters["tag_ids"] = tags
articles = recall_articles(None, offset, size, filters, ARTICLE_SORT_TYPE.RECOMMEND, {})
article_ids = [article['id'] for article in articles]
return {"article_ids": article_ids}
@bind("doris/recommend/get_answers")
def get_answers(tags, offset=0, size=10):
filters = {
"content_level": [CONTENT_CLASS.EXCELLENT, CONTENT_CLASS.FINE]
}
if tags:
filters["tag_ids"] = tags
tail = offset + size
answer_ids = []
if tail < MAX_LOAD:
answers = recall_answers(None, 0, MAX_LOAD, filters, ANSWER_SORT_TYPE.RECOMMEND, {}, fields=["id", "user_id"])
answers = filter(lambda answer: "id" in answer and "user_id" in answer, answers)
answer_items = [(answer["id"], answer["user_id"]) for answer in answers]
drop_dup_answers = drop_dup(answer_items)
if tail <= len(drop_dup_answers):
answer_ids = [item[0] for item in drop_dup_answers[offset:tail]]
if len(answer_ids) == 0:
answers = recall_answers(None, offset, size, filters, ANSWER_SORT_TYPE.RECOMMEND, {})
answer_ids = [answer['id'] for answer in answers]
return {"answer_ids": answer_ids}
@bind('doris/recommend/icon')
def fetch_icon(device_id, size):
try:
card_type = "icon"
try:
que = DeviceIconQueue.objects.get(device_id=device_id)
except DeviceIconQueue.DoesNotExist:
que = IconQueue.objects.last()
if not que:
return {"icon": []}
que = list(filter(None, que.queue.split(',')))
# adjust args.
cursor = 0
cursor = int(cursor) % len(que)
size = min(size, len(que))
data = list(islice(cycle(que), cursor, cursor + size))
return {card_type: list(map(int, data))}
except:
logging_exception()
return {"icon": []}
@bind('doris/recommend/homepage_polymer')
def fetch_polymer_ids(device_id, size):
try:
card_type = "polymer_ids"
try:
que = DeviceIconQueue.objects.get(device_id=device_id)
except DeviceIconQueue.DoesNotExist:
que = IconQueue.objects.last()
if not que:
return {"polymer_ids": []}
que = list(filter(None, que.queue.split(',')))
# adjust args.
cursor = 0
cursor = int(cursor) % len(que)
size = min(size, len(que))
data = list(islice(cycle(que), cursor, cursor + size))
return {card_type: list(map(int, data))}
except:
logging_exception()
return {"polymer_ids": []}
@bind('doris/recommend/feed')
def recommend_feed(device_id, card_type, city_id, size):
try:
return RecommendFeed.dispatch(device_id, card_type,
city_id, size)
except:
logging_exception()
return {card_type: []}
class RecommendFeed:
@classmethod
def dispatch(cls, device_id, card_type, city_id, size):
data = []
if card_type == CARD_TYPE.QA:
data = cls.fetch_qa(device_id, card_type, size)
elif card_type == CARD_TYPE.ANSWER:
data = cls.fetch_answer(device_id, card_type, size)
data = list(map(int, data))
elif card_type == CARD_TYPE.ARTICLE:
data = cls.fetch_article(device_id, card_type, size)
data = list(map(int, data))
elif card_type == CARD_TYPE.QUESTION:
data = cls.fetch_question(device_id, card_type, size)
data = list(map(int, data))
elif card_type == CARD_TYPE.DIARY:
data = cls.fetch_diary(device_id, card_type, city_id, size)
elif card_type == CARD_TYPE.USERTOPIC:
data = cls.fetch_user_topic(device_id,card_type,size)
elif card_type == CARD_TYPE.DOCTORTOPIC:
data = cls.fetch_doctor_topic(device_id,card_type,size)
data = list(map(int, data))
elif card_type == CARD_TYPE.ENCYCLOPEDIA:
data = cls.fetch_wiki(device_id,card_type,size)
return {card_type: data}
@staticmethod
def current_date():
return datetime.datetime.now().strftime('%Y-%m-%d')
@staticmethod
def fetch_question(device_id, card_type, size):
key = '{device_id}-{card_type}-{date}'.format(device_id=device_id,
card_type=card_type, date=RecommendFeed.current_date())
try:
que = DeviceQuestionQueue.objects.get(device_id=device_id)
except DeviceQuestionQueue.DoesNotExist:
que = QuestionQueue.objects.last()
que = list(filter(None, que.queue.split(',')))
# adjust args.
cursor = redis_client.get(key) or 0
cursor = int(cursor) % len(que)
size = min(size, len(que))
redis_client.set(key, cursor + size, ex=24 * 60 * 60)
return list(islice(cycle(que), cursor, cursor + size))
@staticmethod
def fetch_icon(device_id, card_type, size):
key = '{device_id}-{card_type}-{date}'.format(device_id=device_id,
card_type=card_type, date=RecommendFeed.current_date())
try:
que = DeviceIconQueue.objects.get(device_id=device_id)
except DeviceIconQueue.DoesNotExist:
que = IconQueue.objects.last()
que = list(filter(None, que.queue.split(',')))
# adjust args.
cursor = redis_client.get(key) or 0
cursor = int(cursor) % len(que)
size = min(size, len(que))
redis_client.set(key, cursor + size, ex=24 * 60 * 60)
return list(islice(cycle(que), cursor, cursor + size))
@staticmethod
def fetch_wiki(device_id, card_type, size):
try:
key = '{device_id}-{card_type}-{date}'.format(device_id=device_id,
card_type=card_type, date=RecommendFeed.current_date())
que = WikiQueue.objects.last()
if not que:
return []
# que = list(filter(None, que.queue.split(',')))
que = json.loads(que.queue)
# adjust args.
cursor = redis_client.get(key) or 0
cursor = int(cursor) % len(que)
size = min(size, len(que))
redis_client.set(key, cursor + size, ex=24 * 60 * 60)
return list(islice(cycle(que), cursor, cursor + size))
except:
logging_exception()
return []
@staticmethod
def fetch_answer(device_id, card_type, size):
try:
key = '{device_id}-{card_type}-{date}'.format(device_id=device_id,
card_type=card_type, date=RecommendFeed.current_date())
try:
que = DeviceAnswerQueue.objects.get(device_id=device_id)
except DeviceAnswerQueue.DoesNotExist:
que = AnswerQueue.objects.last()
if not que:
return []
que = list(filter(None, que.queue.split(',')))
# adjust args.
cursor = redis_client.get(key) or 0
cursor = int(cursor) % len(que)
size = min(size, len(que))
redis_client.set(key, cursor + size, ex=24 * 60 * 60)
return list(islice(cycle(que), cursor, cursor + size))
except:
logging_exception()
return []
@staticmethod
def fetch_qa(device_id, card_type, size):
try:
key = '{device_id}-{card_type}-{date}'.format(device_id=device_id,
card_type=card_type, date=RecommendFeed.current_date())
if (device_id != '0'):
search_qa_recommend_key = "TS:search_recommend_answer_queue:device_id:" + str(device_id)
search_qa_recommend_list = list()
search_cursor_ts = 0
if redis_client.exists(search_qa_recommend_key):
search_qa_recommend_dict = redis_client.hgetall(search_qa_recommend_key)
if b'cursor' in search_qa_recommend_dict:
search_cursor_ts = json.loads(search_qa_recommend_dict[b'cursor'])
if search_cursor_ts < 10:
search_qa_recommend_list = json.loads(search_qa_recommend_dict[b'answer_queue'])
if search_cursor_ts < len(search_qa_recommend_list):
size = size - 1
try:
que = DeviceQAQueue.objects.get(device_id=device_id)
except DeviceQAQueue.DoesNotExist:
que = AnswerQueue.objects.last()
if not que:
return []
que = list(filter(None, que.queue.split(',')))
# adjust args.
cursor = redis_client.get(key) or 0
cursor = int(cursor) % len(que)
size = min(size, len(que))
# redis_client.set(key, cursor + size, ex=24 * 60 * 60)
data = list(islice(cycle(que), cursor, cursor + size))
data = list(map(int, data))
if cursor + 2*size < len(que):
redis_client.set(key, cursor + size, ex=24 * 60 * 60)
else:
try:
context.request_logger.app(reset_answer_queue=True)
cursor = 0
redis_client.set(key, cursor, ex=24 * 60 * 60)
except:
redis_client.set(key, cursor + size, ex=24 * 60 * 60)
if device_id != '0':
if len(search_qa_recommend_list) > 0 and search_cursor_ts < len(search_qa_recommend_list):
queue = search_qa_recommend_list[search_cursor_ts:search_cursor_ts + 1]
queue.extend(data)
data = queue
new_search_cursor = search_cursor_ts + 1
redis_client.hset(search_qa_recommend_key, 'cursor', new_search_cursor)
redis_client.expire(search_qa_recommend_key, 30 * 24 * 60 * 60)
read_qa_key = "TS:recommend_answer_set:device_id:" + str(device_id)
if len(data) > 0:
redis_client.sadd(read_qa_key, *data)
return data
except:
logging_exception()
return []
@staticmethod
def fetch_article(device_id, card_type, size):
key = '{device_id}-{card_type}-{date}'.format(device_id=device_id,
card_type=card_type, date=RecommendFeed.current_date())
try:
que = DeviceArticleQueue.objects.get(device_id=device_id)
except DeviceArticleQueue.DoesNotExist:
que = ArticleQueue.objects.last()
if not que:
return []
que = list(filter(None, que.queue.split(',')))
# adjust args.
cursor = redis_client.get(key) or 0
cursor = int(cursor) % len(que)
size = min(size, len(que))
redis_client.set(key, cursor + size, ex=24 * 60 * 60)
return list(islice(cycle(que), cursor, cursor + size))
@staticmethod
def fetch_user_topic(device_id, card_type, size):
try:
key = '{device_id}-{card_type}-{date}'.format(device_id=device_id,card_type=card_type, date=RecommendFeed.current_date())
if (device_id != '0') and size >= 2:
search_topic_recommend_key = "TS:search_recommend_tractate_queue:device_id:" + str(device_id)
search_topic_recommend_list = list()
search_cursor_ts = 0
if redis_client.exists(search_topic_recommend_key):
search_topic_recommend_dict = redis_client.hgetall(search_topic_recommend_key)
if b'cursor' in search_topic_recommend_dict:
search_cursor_ts = json.loads(search_topic_recommend_dict[b'cursor'])
if search_cursor_ts < 30:
search_topic_recommend_list = json.loads(search_topic_recommend_dict[b'tractate_queue'])
if search_cursor_ts < len(search_topic_recommend_list):
size = size - 2
try:
que = DeviceUserTopicQueue.objects.get(device_id=device_id)
except DeviceUserTopicQueue.DoesNotExist:
que = UserTopicQueue.objects.last()
if not que:
return []
que = list(filter(None, que.queue.split(',')))
# adjust args.
cursor = redis_client.get(key) or 0
cursor = int(cursor) % len(que)
size = min(size, len(que))
data = list(islice(cycle(que), cursor, cursor + size))
data = list(map(int, data))
if cursor + 2*size < len(que):
redis_client.set(key, cursor + size, ex=24 * 60 * 60)
else:
try:
context.request_logger.app(reset_queue=True)
cursor = 0
redis_client.set(key, cursor, ex=24 * 60 * 60)
except:
redis_client.set(key, cursor + size, ex=24 * 60 * 60)
if device_id != '0' and size >= 2:
if len(search_topic_recommend_list) > 0 and search_cursor_ts < len(search_topic_recommend_list):
queue = search_topic_recommend_list[search_cursor_ts:search_cursor_ts + 2]
queue.extend(data)
data = queue
new_search_cursor = search_cursor_ts + 2
redis_client.hset(search_topic_recommend_key, 'cursor', new_search_cursor)
redis_client.expire(search_topic_recommend_key, 30 * 24 * 60 * 60)
read_topic_key = "TS:recommend_tractate_set:device_id:" + str(device_id)
if len(data) > 0:
redis_client.sadd(read_topic_key, *data)
return data
except:
logging_exception()
return []
@staticmethod
def fetch_doctor_topic(device_id, card_type, size):
try:
key = '{device_id}-{card_type}-{date}'.format(device_id=device_id,
card_type=card_type, date=RecommendFeed.current_date())
try:
que = DeviceDoctorTopicQueue.objects.get(device_id=device_id)
except DeviceDoctorTopicQueue.DoesNotExist:
que = DoctorTopicQueue.objects.last()
if not que:
return []
que = list(filter(None, que.queue.split(',')))
# adjust args.
cursor = redis_client.get(key) or 0
cursor = int(cursor) % len(que)
size = min(size, len(que))
redis_client.set(key, cursor + size, ex=24 * 60 * 60)
return list(islice(cycle(que), cursor, cursor + size))
except:
logging_exception()
return []
@classmethod
def get_gm_kv_ins(cls,redis_ip, redis_port, redis_db, redis_password=""):
try:
if len(redis_password) == 0:
cli_ins = redis.Redis(host=redis_ip, port=redis_port, db=redis_db, socket_timeout=2)
else:
cli_ins = redis.Redis(host=redis_ip, port=redis_port, db=redis_db, password=redis_password,
socket_timeout=2)
cli_ins.ping()
return cli_ins
except:
return None
@classmethod
def fetch_diary_queue_data(cls, city_id, device_id=None):
local = list()
nearby = list()
nation = list()
megacity = list()
use_city_id = city_id
try:
gm_kv_ins = None
for gm_kv_host_item in settings.GM_KV_HOSTS:
gm_kv_ins = cls.get_gm_kv_ins(redis_ip=gm_kv_host_item["host"], redis_port=gm_kv_host_item["port"], redis_db=gm_kv_host_item["db"],redis_password=gm_kv_host_item["password"])
if gm_kv_ins:
break
specify_city_id_key = "diary_queue:city_id:" + use_city_id
world_city_id_key = "diary_queue:city_id:world"
if device_id is not None:
specify_city_id_key = "device_diary_queue:device_id:" + device_id + ":city_id:" + use_city_id
city_val_dict = gm_kv_ins.hgetall(specify_city_id_key)
if len(city_val_dict) == 0:
city_val_dict = gm_kv_ins.hgetall(world_city_id_key)
use_city_id = "world"
if b"native_queue" in city_val_dict and city_val_dict[b"native_queue"]:
local = list(filter(None, city_val_dict[b"native_queue"].split(b",")))
if b"nearby_queue" in city_val_dict and city_val_dict[b"nearby_queue"]:
nearby = list(filter(None, city_val_dict[b"nearby_queue"].split(b",")))
if b"nation_queue" in city_val_dict and city_val_dict[b"nation_queue"]:
nation = list(filter(None, city_val_dict[b"nation_queue"].split(b",")))
if b"megacity_queue" in city_val_dict and city_val_dict[b"megacity_queue"]:
megacity = list(filter(None, city_val_dict[b"megacity_queue"].split(b",")))
return (local, nearby, nation, megacity, use_city_id)
except:
logging_exception()
logger.error("catch exception,err_log:%s" % traceback.format_exc())
qs = DiaryQueue.objects.filter(city_id__in=[city_id, 'world'])
# Assume that world queue must exist.
if len(qs) == 1:
obj = qs[0]
else:
obj = qs[0] if qs[0].city_id == city_id else qs[1]
if obj.native_queue:
local = list(filter(None, obj.native_queue.split(',')))
if obj.nearby_queue:
nearby = list(filter(None, obj.nearby_queue.split(',')))
if obj.nation_queue:
nation = list(filter(None, obj.nation_queue.split(',')))
if obj.megacity_queue:
megacity = list(filter(None, obj.megacity_queue.split(',')))
use_city_id = obj.city_id if obj else use_city_id
return (local, nearby, nation, megacity, use_city_id)
@classmethod
def fetch_device_diary_queue_data(cls, city_id, device_id):
local = list()
nearby = list()
nation = list()
megacity = list()
use_city_id = city_id
try:
gm_kv_ins = None
for gm_kv_host_item in settings.GM_KV_HOSTS:
gm_kv_ins = cls.get_gm_kv_ins(redis_ip=gm_kv_host_item["host"], redis_port=gm_kv_host_item["port"], redis_db=gm_kv_host_item["db"],redis_password=gm_kv_host_item["password"])
if gm_kv_ins:
break
specify_city_id_key = "device_diary_queue:device_id:" + device_id + ":city_id:" + use_city_id
city_val_dict = gm_kv_ins.hgetall(specify_city_id_key)
if b"native_queue" in city_val_dict and city_val_dict[b"native_queue"]:
local = list(filter(None, city_val_dict[b"native_queue"].split(b",")))
if b"nearby_queue" in city_val_dict and city_val_dict[b"nearby_queue"]:
nearby = list(filter(None, city_val_dict[b"nearby_queue"].split(b",")))
if b"nation_queue" in city_val_dict and city_val_dict[b"nation_queue"]:
nation = list(filter(None, city_val_dict[b"nation_queue"].split(b",")))
if b"megacity_queue" in city_val_dict and city_val_dict[b"megacity_queue"]:
megacity = list(filter(None, city_val_dict[b"megacity_queue"].split(b",")))
return (local, nearby, nation, megacity, use_city_id)
except:
logging_exception()
logger.error("catch exception,err_log:%s" % traceback.format_exc())
obj = DeviceDiaryQueue.objects.filter(device_id=device_id, city_id=city_id).first()
if obj and obj.native_queue:
local = list(filter(None, obj.native_queue.split(',')))
if obj and obj.nearby_queue:
nearby = list(filter(None, obj.nearby_queue.split(',')))
if obj and obj.nation_queue:
nation = list(filter(None, obj.nation_queue.split(',')))
if obj and obj.megacity_queue:
megacity = list(filter(None, obj.megacity_queue.split(',')))
use_city_id = obj.city_id if obj else use_city_id
return (local, nearby, nation, megacity, use_city_id)
@classmethod
def fetch_diary(cls, device_id, card_type, city_id, size):
# first, we fetch data from personal-queue city-queue, if not both, get data
# from world queue.
user_portrait_diary_part_list = list()
click_diary_size = 1
search_diary_size = 4
if device_id != '0':
user_portrait_diary_key = 'user_portrait_recommend_diary_queue:device_id:%s:%s' % (device_id, datetime.datetime.now().strftime('%Y-%m-%d'))
if redis_client.exists(user_portrait_diary_key):
user_portrait_diary_dict = redis_client.hgetall(user_portrait_diary_key)
user_portrait_cursor = str(user_portrait_diary_dict[b'cursor'],encoding='utf-8')
if user_portrait_cursor == '0':
if b'len_cursor' in user_portrait_diary_dict.keys():
user_portrait_diary_list = json.loads(user_portrait_diary_dict[b'diary_queue'])
len_cursor = str(user_portrait_diary_dict[b'len_cursor'],encoding='utf-8')
len_cursor = int(len_cursor)
if len(user_portrait_diary_list) - len_cursor >size:
user_portrait_diary_part_list = user_portrait_diary_list[len_cursor:len_cursor+size]
redis_client.hset(user_portrait_diary_key,'len_cursor',len_cursor+size)
size = 0
else:
user_portrait_diary_list = json.loads(user_portrait_diary_dict[b'diary_queue'])
diary_list_len = len(user_portrait_diary_list) - len_cursor
size = size - diary_list_len
user_portrait_diary_part_list = user_portrait_diary_list[len_cursor:len_cursor + diary_list_len]
redis_client.hset(user_portrait_diary_key, 'len_cursor', len_cursor + diary_list_len)
user_portrait_cursor = int(user_portrait_cursor) + 1
redis_client.hset(user_portrait_diary_key, 'cursor', user_portrait_cursor)
else:
user_portrait_diary_part_list = json.loads(user_portrait_diary_dict[b'diary_queue'])
size = size - len(user_portrait_diary_part_list)
user_portrait_cursor = int(user_portrait_cursor) + 1
redis_client.hset(user_portrait_diary_key, 'cursor', user_portrait_cursor)
try:
# obj = DeviceDiaryQueue.objects.filter(device_id=device_id, city_id=city_id).first()
(local, nearby, nation, megacity, city_id) = cls.fetch_device_diary_queue_data(city_id, device_id)
if len(local) == 0 and len(nearby) == 0 and len(nation) == 0 and len(megacity) == 0:
(local, nearby, nation, megacity, city_id) = cls.fetch_diary_queue_data(city_id)
# if not obj:
# (local, nearby, nation, megacity,city_id) = cls.fetch_diary_queue_data(city_id)
# else:
# local = list(filter(None, obj.native_queue.split(','))) if obj.native_queue else []
# nearby = list(filter(None, obj.nearby_queue.split(','))) if obj.nearby_queue else []
# nation = list(filter(None, obj.nation_queue.split(','))) if obj.nation_queue else []
# megacity = list(filter(None, obj.megacity_queue.split(','))) if obj.megacity_queue else []
except:
logging_exception()
(local, nearby, nation, megacity, city_id) = cls.fetch_diary_queue_data(city_id)
if(device_id!='0'):
search_diary_recommend_key = "TS:search_recommend_diary_queue:device_id:" + str(device_id)
search_diary_recommend_list = list()
search_cursor_ts = 0
if redis_client.exists(search_diary_recommend_key) and size >3:
search_diary_recommend_dict = redis_client.hgetall(search_diary_recommend_key)
if b'cursor' in search_diary_recommend_dict:
search_cursor_ts = json.loads(search_diary_recommend_dict[b'cursor'])
search_diary_recommend_list = json.loads(search_diary_recommend_dict[b'diary_queue'])
if search_cursor_ts +search_diary_size < len(search_diary_recommend_list) :
size = size - search_diary_size
if (device_id != '0') :
diary_recommend_key = "TS:recommend_diary_queue:device_id:" + str(device_id)
diary_recommend_list = list()
if redis_client.exists(diary_recommend_key) and size > 0:
diary_recommend_dict = redis_client.hgetall(diary_recommend_key)
diary_recommend_list = json.loads(diary_recommend_dict[b'diary_queue'])
if len(diary_recommend_list)>0:
size = size -click_diary_size
key = '{device_id}-{city_id}-{date}'.format(device_id=device_id,
city_id=city_id, date=RecommendFeed.current_date())
# strategy rule: when user refresh over 30 loadings, reset native nearby nation queue cursor.
counter_key = key + '-counter_v1'
counter = redis_client.incr(counter_key)
if counter == 1:
redis_client.expire(counter_key, 24 * 60 * 60)
cursor_key = key + '-cursor_v1'
cursor = redis_client.get(cursor_key) or b'0-0-0-0'
# if counter > 30:
# cursor = b'0-0-0-0'
# redis_client.delete(counter_key)
cx, cy, cm, cz = map(int, cursor.split(b'-'))
x, y, m, z = cls.get_city_scale(city_id)
data, ncx, ncy, ncm, ncz = cls.get_scale_data(
local, nearby, nation, megacity,
cx, cy, cm, cz,
x, y, z, m, size
)
if ncx == cx and ncy == cy: # native queue and nearby queue
logger.info("diary queue reach end,cx:%d,cy:%d,cm:%d,cz:%d",cx,cy,cm,cz)
# redis_client.delete(counter_key)
# data, ncx, ncy, ncm, ncz = cls.get_scale_data(
# local, nearby, nation, megacity,
# 0, 0, 0, 0,
# x, y, z, m, size
# )
ncx = ncy = ncm = ncz = 0
val = '-'.join(map(str, [ncx, ncy, ncm, ncz]))
redis_client.set(cursor_key, val, ex=24 * 60 * 60)
data = list(map(int, data))
if device_id != '0':
if search_cursor_ts<len(search_diary_recommend_list)-search_diary_size:
queue = search_diary_recommend_list[search_cursor_ts:search_cursor_ts+search_diary_size]
queue.extend(data)
data = queue
new_search_cursor = search_cursor_ts +search_diary_size
redis_client.hset(search_diary_recommend_key,'cursor',new_search_cursor)
redis_client.expire(search_diary_recommend_key,30*24*60*60)
if len(diary_recommend_list) >0:
diary_id = diary_recommend_list.pop(0)
data.insert(0,diary_id)
if len(diary_recommend_list)>0:
diary_recommend_list_json = json.dumps(diary_recommend_list)
redis_client.hset(diary_recommend_key,'diary_queue',diary_recommend_list_json)
redis_client.expire(diary_recommend_key,30*24*60*60)
else:
redis_client.delete(diary_recommend_key)
if len(user_portrait_diary_part_list)>0:
user_portrait_diary_part_list.extend(data)
data = user_portrait_diary_part_list
#已读
read_diary_key = "TS:recommend_diary_set:device_id:" + str(device_id)
if len(data)>0:
redis_client.sadd(read_diary_key,*data)
return data
@staticmethod
def get_scale_data(local, nearby, nation, megacity, cx, cy, cm, cz, x, y, z, m, size):
"""
:param local: local diary queue
:param nearby: nearby diary queue
:param nation: nation diary queue
:param megacity: megacity diary queue
:param cx: seen local diary offset
:param cy: seen nearby diary offset
:param cz: seen nation diary offset
:param cm: seen megacity diary offset
:param x: local diary scale factor
:param y: nearby diary scale factor
:param z: nation diary scale factor
:param m: megacity diary scale factor
:param size: nubmer of diary
:return:
"""
# 本地 临近 特大城市 全国 四个层级 都按照的是四舍五入取得方式
# 针对出现的问题,本次相应的优化是:
# 1、如果出现两个层级为零,且有剩余坑位时,则按照本地 临近 全国的优先级,先给优先级高且为零的层级一个坑位。
# 2、如果所有层级都非零,且有剩余坑位时,则优先给权重占比大的层级一个坑位。
# 3、如果只有一个层级为零,且有剩余坑位时,则优先填充权重占比大的层级一个坑位。
nx = int(round(x * 1.0 / (x + y + z + m) * size))
ny = int(round(y * 1.0 / (x + y + z + m) * size))
nz = int(round(z * 1.0 / (x + y + z + m) * size))
nm = int(round(m * 1.0 / (x + y + z + m) * size))
nxyz = [nx, ny, nm, nz]
xyz = [x, y, m, z]
counter = Counter([nx, ny, nm, nz])
if counter[0] == 2:
nxyz[nxyz.index(0)] += size - sum(nxyz)
else:
nxyz[xyz.index(max(xyz))] += size - sum(nxyz)
nx, ny, nm, nz = nxyz
slocal = local[cx:cx + nx]
cx = min(cx + nx, len(local))
ny += (nx - len(slocal))
snearby = nearby[cy:cy + ny]
cy = min(cy + ny, len(nearby))
nm += (ny - len(snearby))
smegacity = megacity[cm: cm + nm]
cm = min(cm + nm, len(megacity))
nz += (nm - len(smegacity))
snation = nation[cz:cz + nz]
cz = min(cz + nz, len(nation))
return chain(slocal, snearby, smegacity, snation), cx, cy, cm, cz
@staticmethod
def get_city_scale(city_id):
try:
c = CityScale.objects.get(city_id=city_id)
x, y, z, m = c.native, c.nearby, c.nation, c.megacity
except CityScale.DoesNotExist:
try:
c = City.objects.get(id=city_id)
if c.level in (CITY_LEVEL.SUPER, CITY_LEVEL.ONE):
x, y, m, z = 4, 3, 0, 3
elif c.level == CITY_LEVEL.TWO:
x, y, m, z = 3, 3, 0, 3
elif c.level == CITY_LEVEL.THREE:
x, y, m, z = 1, 4, 0, 5
else:
x, y, m, z = 0, 0, 0, 10
except City.DoesNotExist:
x, y, m, z = 0, 0, 0, 10
return x, y, m, z