sys.setdefaultencoding('utf-8')
sys.path.append(os.path.realpath(os.path.join(os.path.dirname(__file__), '../../')))
import json,math,MySQLdb,datetime,time
import similary_question as sq
from recommend import RecommendQuestion
from common.db_fetcher import DataBaseFetcher
recommend = RecommendQuestion() # object
db_fetcher = DataBaseFetcher()
question_list = [] # set
delete_sql = "DELETE FROM error_question_log WHERE question_id IN ( select c.question_id from (SELECT a.question_id FROM error_question_log a JOIN neworiental_v3.entity_question b ON a.question_id = b.id WHERE b.subject_id != 4) c)"
db_fetcher.commit_sql_cmd(delete_sql, 'mysql_logdata') # update
rows = db_fetcher.get_sql_result("select question_id from error_question_log", 'mysql_logdata')
for row in rows:
qid = row[0]
question_list.append(qid)
def getQuestionWords(question_list): # question word
dict_question_info = {}
lSet = int(len(question_list) / 1000) + 2
start, end = 0, 0
for i in range(1, lSet):
end = i * 1000
if end > len(question_list): end = len(question_list)
str_question = ','.join([str(x) for x in question_list[start:end] ])
str_sql = "select c.id, c.subject_id, t.type_id,t.struct_id, c.json_data, c.difficulty, c.question_type from neworiental_v3.entity_question c left \
join neworiental_v3.entity_question_type t on t.type_id=c.question_type_id where c.id in (%s) and subject_id = 4" % str_question
class Report(object):
"""docstring for Report"""
def __init__(self, exercise_id, update_time='2017-11-01 00:00:00'):
# do something inits
self.db_fetcher = DataBaseFetcher()
self.exercise_id = exercise_id
self.dict_content_answer = {} # error content
self.curr_time = datetime.datetime.now()
self.update_time = update_time # update time
self.recommend = RecommendQuestion()
self.dict_realtion_quesion, self.dict_question_num = self.getRelationQuestion(
)
self.dict_parent_quesion = self.getChildQuestion()
self.dict_question_diff = self.getRightDifficulty()
self.dict_point, self.dict_topic_point = self.getPoints()
self.dict_students = self.getStudentId()
self.dict_student_score, self.dict_student_records = {}, {
x: []
for x in self.dict_students
}
self.exam_list_records, self.practice_list_records = self.getExerciseRecord(
) #records
# dict
self.dict_question_types = {
1: '选择题',
2: '填空题',
4: '简答题',
6: '综合题',
17: '计算题',
44: '证明题'
}
self.dict_question_difficulty = {
1: '易',
2: '中',
3: '难',
4: '极难'
} # 1:易 2:中 3:难 4:极难
# feedback
self.dict_students_resource = self.getStudentResource() # resource
def getExerciseRecord(self):
exam_list_records = []
practice_list_records = []
sql = "select a.question_id, a.student_id, a.ret_num, a.submit_answer, a.submit_time, b.question_type from entity_student_exercise a join \
neworiental_v3.entity_question b on b.id = a.question_id where a.submit_time > \'%s\' and a.exercise_source = 6" % (
self.update_time)
dict_is_choice = {}
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
question, student_id, ret, answer, submit_time, question_type = row
student_id = long(student_id)
if answer == 'null' or answer == 'None' or answer == '' or answer == 'NULL' or answer == None or len(
answer) == 0:
continue
if question in self.dict_realtion_quesion:
exam_list_records.append([
question, student_id, ret, answer, submit_time,
question_type
])
self.dict_student_records[student_id].append([
question, student_id, ret, answer, submit_time,
question_type
])
self.dict_content_answer['%s_%s' %
(question, student_id)] = answer
elif question in self.dict_parent_quesion:
dict_content = self.dict_parent_quesion[question]
parent_question_id = dict_content['parent_id']
rank = dict_content['rank']
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
parent_question_id]
if question_num >= 17 and question_num <= 21:
if rank == 1:
exam_list_records.append([
parent_question_id, student_id, ret, answer,
submit_time, question_type
])
self.dict_student_records[student_id].append([
parent_question_id, student_id, ret, answer,
submit_time, question_type
])
elif rank == 2:
self.dict_content_answer['%s_%s' %
(parent_question_id,
student_id)] = answer
elif question_num >= 22 and question_num <= 23:
key = '%s_%s' % (parent_question_id, student_id)
if rank == 1:
if answer == 'A':
dict_is_choice[key] = 1
else:
dict_is_choice[key] = 0
elif rank == 2:
if key in dict_is_choice:
if dict_is_choice[key] == 1:
exam_list_records.append([
parent_question_id, student_id, ret,
answer, submit_time, question_type
])
self.dict_student_records[student_id].append([
parent_question_id, student_id, ret,
answer, submit_time, question_type
])
elif rank == 3:
self.dict_content_answer[key] = answer
else:
practice_list_records.append([
question, student_id, ret, answer, submit_time,
question_type
])
return exam_list_records, practice_list_records
def getStudentId(self, file_name='students.txt'):
list_students = []
with open(file_name) as handle_f:
for line in handle_f:
system_id = long(line.strip())
list_students.append(system_id)
set_studends = set(list_students) # students set
str_content = ','.join([str(x) for x in set_studends])
sql = "select a.`system_id`, a.`name` from neworiental_user.entity_user a where type = 2 and a.system_id in (%s)" % str_content
dict_students = {}
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
student_id, name = row
if student_id in set_studends:
dict_students[student_id] = name
return dict_students
def getRightDifficulty(self):
dict_question_diff = {}
sql = "select b.id, b.difficulty from neworiental_v3.entity_question b join link_question_answer a on b.id = a.link_question_id where a.update_time >= \'%s\'" % self.update_time
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
question_id, difficulty = row
dict_question_diff[question_id] = int(difficulty)
return dict_question_diff
def getChildQuestion(self):
dict_parent_list = {}
dict_parent_question = {}
sql = "select a.id, a.parent_question_id from link_question_answer b join neworiental_v3.entity_question a on a.parent_question_id = b.link_answer_id \
where b.question_num >= 17 and b.update_time >= \'%s\'" % self.update_time
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
qid = row[0]
parent_id = row[1]
if parent_id not in dict_parent_list:
dict_parent_list[parent_id] = []
dict_parent_list[parent_id].append(qid)
for parent_id in dict_parent_list:
sort_question = sorted(dict_parent_list[parent_id], reverse=False)
count = 1
for item in sort_question:
dict_parent_question[item] = {
'parent_id': parent_id,
'rank': count
}
count += 1
return dict_parent_question
def getRelationQuestion(self):
dict_realtion_quesion = {}
dict_point_question_num = {}
sql = "select a.link_question_id, a.link_answer_id, a.link_point_id, a.question_num, b.difficulty, a.question_exercise_id, b.question_type from link_question_answer a join neworiental_v3.entity_question b on a.link_question_id = \
b.id where a.update_time >= \'%s\'" % self.update_time
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
dict_parent_quesion = {}
link_parent_list = []
for row in rows:
link_question_id, link_answer_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = row
dict_realtion_quesion[
link_answer_id] = link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type
arr_point = link_point_id.strip().split(',')
for point in arr_point:
if point not in dict_point_question_num:
dict_point_question_num[point] = []
dict_point_question_num[point].append([
link_question_id, question_num, difficulty,
question_exercise_id, question_type
])
return dict_realtion_quesion, dict_point_question_num
def getScore(self, question_num, answer):
ascore, score = 0, 0
if question_num >= 1 and question_num <= 16:
score = 5 if (answer == 'A' or answer == 'B') else 0
ascore = 5
elif question_num >= 17 and question_num <= 21:
if answer == 'A':
score = 4
elif answer == 'B':
score = 7
elif answer == 'C':
score = 9
elif answer == 'D':
score = 12
ascore = 12
elif question_num >= 22 and question_num <= 23:
if answer == 'A':
score = 4
elif answer == 'B':
score = 7
elif answer == 'C':
score = 9
elif answer == 'D':
score = 10
ascore = 10
return ascore, score
def statQustionReport(self):
dict_question_count, dict_question_right = {}, {}
dict_point_count, dict_point_right = {}, {}
dict_error_students, dict_right_students = {}, {}
for item in self.exam_list_records:
question, student_id, ret, answer, submit_time, question_type = item
if question in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
question]
arr_points = link_point_id.strip().split(',')
ascore, score = self.getScore(question_num, answer)
is_right = (answer == 'A') or (answer == 'B')
# 1 point
for point in arr_points:
if point in self.dict_point:
name, ptype, question_type, level, parent_id, link_id = self.dict_point[
point]
if name not in dict_point_count:
dict_point_count[name] = 0
dict_point_right[name] = 0
dict_point_right[name] += 1 if (
question_num <= 16 and is_right) or (
question_num >= 17 and answer == 'D') else 0 #
dict_point_count[name] += 1
if link_question_id not in dict_question_count:
dict_question_right[link_question_id] = 0
dict_question_count[link_question_id] = 0
dict_question_right[
link_question_id] += 1 if ret == 1 else 0 #
dict_question_count[link_question_id] += 1
# questions
if link_question_id not in dict_right_students:
dict_right_students[link_question_id] = []
dict_error_students[link_question_id] = []
if (question_num <= 16 and is_right) or (question_num >= 17
and answer == 'D'):
dict_right_students[link_question_id].append(student_id)
else:
dict_error_students[link_question_id].append(student_id)
if student_id not in self.dict_student_score:
self.dict_student_score[student_id] = 0
self.dict_student_score[student_id] += score
dict_point_acc = {}
for point_name in dict_point_count:
acc = dict_point_right[point_name] / dict_point_count[point_name]
dict_point_acc[point_name] = acc
#print '%s \t%s' % (point_name, acc)
# students
dict_students_point_question = self.calStudentPoints(dict_point_acc)
return dict_students_point_question
def getErrorText(self, answer):
if answer == 'C':
return '审题时,粗心看错了'
elif answer == 'D':
return '审题时,题意读不懂'
elif answer == 'E':
return '析题时,思路模糊不清'
elif answer == 'F':
return '析题时,思路方向错误'
elif answer == 'G':
return '解题时,公式记错了'
elif answer == 'H':
return '解题时,计算出错了'
elif answer == 'I':
return '未作答(或未完成),时间来不及了'
elif answer == 'A' or answer == 'B':
return '答题正确'
def getQuestionWords(self):
dict_question_words = {}
str_question = ','.join([
str(self.dict_realtion_quesion[x][0])
for x in self.dict_realtion_quesion
])
str_sql = "select c.id, c.subject_id, t.type_id,t.struct_id, c.json_data from neworiental_v3.entity_question c left join neworiental_v3.entity_question_type t on \
t.type_id=c.question_type_id where c.id in (%s)" % str_question
s_rows = self.db_fetcher.get_sql_result(str_sql, 'mysql_logdata')
for row in s_rows:
question, subject_id, type_id, struct_id, json_data = row
if json_data != '' and json_data != 'None' and json_data != None:
keywords, res = sq.predict(question, subject_id, type_id,
struct_id, json_data)
dict_question_words[question] = keywords, res
return dict_question_words
def calStudentPoints(self, dict_point_acc):
dict_coef = {x: 1.0 for x in self.dict_point} #
bate = 0.25
dict_student_points = {}
dict_students_point_question = {} # student -> error question
for student_id in self.dict_students:
if student_id not in dict_student_points:
dict_student_points[student_id] = {}
records = sorted(self.dict_student_records[student_id],
key=lambda x: x[-1],
reverse=True)
dict_error = {
'C': 0.0,
'D': 0.0,
'E': 0.0,
'F': 0.0,
'G': 0.0,
'H': 0.0,
'I': 0.0
}
mass_score = 0
dict_question_point = {}
for item in records:
question, student_id, ret, answer, submit_time, question_type = item
if answer == 'answer': continue
if question in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
question]
if question_exercise_id != self.exercise_id: continue
if question_type == '单选题' or question_type == '选择题':
qtype = 1
elif question_type == '填空题':
qtype = 2
else:
qtype = 3
difficulty = self.dict_question_diff[link_question_id]
arr_points = link_point_id.strip().split(',')
a_score, score = self.getScore(question_num, answer)
content = '%s_%s' % (question, student_id)
if content in self.dict_content_answer:
answer = self.dict_content_answer[content]
if answer != 'A' and answer != 'B' and answer != 'answer':
dict_error[answer] += a_score - score
if answer == 'C' or answer == 'G' or answer == 'H':
mass_score += a_score - score
for point in arr_points:
if point not in dict_question_point:
dict_question_point[point] = []
dict_question_point[point].append(
(link_question_id, qtype, submit_time))
name, ptype, question_type, level, parent_id, link_id = self.dict_point[
point]
acc = dict_point_acc[name]
if point not in dict_student_points[student_id]:
dict_student_points[student_id][point] = 0.0
dict_student_points[student_id][
point] += dict_coef[point] * (
a_score - score
) * acc / math.log(1 + bate *
(level + difficulty))
sort_error = sorted(dict_error.items(),
key=lambda x: x[1],
reverse=True)
if len(dict_student_points[student_id]) > 0:
sort_point = sorted(dict_student_points[student_id].items(),
key=lambda x: x[1],
reverse=True)
student_name = self.dict_students[student_id]
point_name1, ptype1, question_type1, level1, parent_id1, link_id1 = self.dict_point[
point]
point_name2, ptype2, question_type2, level2, parent_id2, link_id2 = self.dict_point[
sort_point[1][0]]
point_name3, ptype3, question_type3, level3, parent_id2, link_id3 = self.dict_point[
sort_point[2][0]]
is_power = 1 if mass_score > 5 else 0
error1, error1score = sort_error[0][0], sort_error[0][1]
error2, error2score = sort_error[1][0], sort_error[1][1]
error1_name, error2_name = self.getErrorText(
error1), self.getErrorText(error2)
dict_students_point_question[
student_id] = sort_point, dict_question_point
return dict_students_point_question
def getPoint2Question(self):
dict_point_org_question = {}
for answer_id in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
answer_id]
arr_point = link_point_id.strip().split(',')
for item in arr_point:
if item not in dict_point_org_question:
dict_point_org_question[item] = []
dict_point_org_question[item].append(link_question_id)
return dict_point_org_question
def pointsRecQuestion(self,
dict_students_point_question,
dict_diff,
throld=4):
# 1,2 choice question 1:easy 2:difficulty 3,4: comprehensive problem 3:easy 4:difficulty
# dict_point_org_question = self.getPoint2Question() # org question point
dict_question_text = self.getQuestionWords()
dict_question_target = {}
dict_student_recommend_question = {}
print '%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s' % (
'学生id', '学生名字', '考点', '考点名称', '原题id', '推荐习题id', '关键词', '难度')
for student_id in dict_students_point_question:
arr_point, dict_question_point_target = dict_students_point_question[
student_id]
student_name = self.dict_students[student_id]
haveTime = 12
recommend_questions = []
pre_set = set()
for item_target in arr_point:
if haveTime <= 0 and len(recommend_questions) % 3 == 0: break
item_point = item_target[0]
arr_question = sorted(dict_question_point_target[item_point],
key=lambda x: x[-1],
reverse=True)
key = '%s-%s' % (student_id, item_point)
rateRight, difficulty = dict_diff[
key] if key in dict_diff else (0.0, 1)
pre_set = pre_set | set([x[0] for x in arr_question]) #
for base_question, qtype, submit_time in arr_question:
if haveTime <= 0 and len(recommend_questions) % 3 == 0:
break
keywords, text = dict_question_text[base_question]
text = text.replace('\n', '').strip('\r').strip() # filter
base_question_key = '%s-%s' % (base_question, difficulty)
if base_question_key in dict_question_target:
target_questions = dict_question_target[
base_question_key]
else:
target_questions = self.recommend.getEsResult(
base_question, text, keywords, difficulty, qtype,
pre_set, throld)
dict_question_target[
base_question_key] = target_questions
for rec_question in target_questions:
if haveTime <= 0 and len(recommend_questions) % 3 == 0:
break
if rec_question in pre_set: continue
haveTime += -1
recommend_questions.append(
(base_question, keywords, rec_question, item_point,
difficulty))
pre_set.add(rec_question)
for rec_item in recommend_questions:
source_question, keywords, rec_question, item_point, difficulty = rec_item
point_name, ptype, question_type, level, parent_id, link_id = self.dict_point[
item_point]
print "%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s" % (
student_id, student_name, item_point, point_name,
source_question, rec_question, keywords, difficulty)
def importDefault(self, is_new, dict_question_topic):
defult_list = [(10805815, 0), (10806190, 2), (10805815, 4),
(10806184, 6), (10806182, 8), (10806169, 10),
(10806104, 12), (10806057, 14), (10805815, 16),
(10806068, 18)]
update_sql = "insert into entity_recommend_question_bytopic(system_id, type,chapter_id,topic_id, question_id, `master`, duration, important, subject_id, score, school_publish, org_id, org_type) values"
new_sql = "insert into sync_student_recommend_question(system_id, resource_type, resource_id, subject_id, tag1, tag2, score, type, type_level, type_id) values"
db_rows = self.db_fetcher.get_sql_result(
"select student_id from entity_student_white_list",
"mysql_white_list")
is_first = 1
for row in db_rows:
student_id = row[0]
for item in defult_list:
question_id, subject_id = item
type_id = 2186
if question_id in dict_question_topic:
set_topic = dict_question_topic[question_id]
if len(set_topic) > 0:
type_id = set_topic.pop()
if is_first == 1:
update_sql += "(%s, 2, 0, 0, %s, 2, 2, 1, %s, %s, 0, 113, 2)" % (
student_id, question_id, subject_id, 0)
if is_new == 1:
new_sql += "(%s, 1, %s, %s, \'最近新错\', \'重难点\', %s, %s, %s, %s)" % (
student_id, question_id, subject_id, 0, 1, 3,
type_id)
is_first = 0
else:
update_sql += ",(%s, 2, 0, 0, %s, 2, 2, 1, %s, %s, 0, 113, 2)" % (
student_id, question_id, subject_id, 0)
new_sql += ",(%s, 1, %s, %s, \'最近新错\', \'重难点\', %s, %s, %s, %s)" % (
student_id, question_id, subject_id, 0, 1, 3, type_id)
if is_new == 1:
self.db_fetcher.commit_sql_cmd(new_sql, 'mysql_v3_white_list')
else:
self.db_fetcher.commit_sql_cmd(update_sql, 'mysql_white_list')
def import2DataBase(self, flag, is_new=1, fname='student_rec.txt'):
dict_question_topic = self.recommend.getThisQuestionTopic(
) # question topic
if is_new == 1:
self.db_fetcher.commit_sql_cmd(
"delete from sync_student_recommend_question",
'mysql_v3_white_list') # update
else:
self.db_fetcher.commit_sql_cmd(
"delete from entity_recommend_question_bytopic",
'mysql_white_list') # update
# self.importDefault(is_new, dict_question_topic) # import
if flag == 1: # 1,3 5 recomend
update_sql = "insert into entity_recommend_question_bytopic(system_id, type,chapter_id,topic_id, question_id, `master`, duration, important, subject_id, score, school_publish, org_id, org_type) values"
insert_sql = "insert into entity_question_recommend(student_id,student_name,point,point_name,question_id,recommend_id,keywords,difficulty) values"
new_sql = "insert into sync_student_recommend_question(system_id, resource_type, resource_id, subject_id, tag1, tag2, score, type, type_level, type_id) values"
insert_score, is_first = 0, 1
with open(fname) as rec_f:
for line in rec_f:
if insert_score > 1:
arr = line.strip().split('\t')
student_id, question_id = arr[0], long(arr[5])
type_id = 2186
if question_id in dict_question_topic:
set_topic = dict_question_topic[question_id]
if len(set_topic) > 0:
type_id = set_topic.pop()
if is_first == 1:
update_sql += "(%s, 2, 0, 0, %s, 2, 2, 1, %s, %s, 0, 113, 2)" % (
student_id, question_id, 0, insert_score)
insert_sql += "(%s,\'%s\',%s, \'%s\', %s, %s, \'%s\',%s)" % (
arr[0], arr[1], arr[2], arr[3], arr[4], arr[5],
arr[6], arr[7])
if is_new == 1:
new_sql += "(%s, 1, %s, %s, \'最近新错\', \'重难点\', %s, %s, %s, %s)" % (
student_id, question_id, 0, insert_score,
1, 3, type_id)
is_first = 0
else:
update_sql += ",(%s, 2, 0, 0, %s, 2, 2, 1, %s, %s, 0, 113, 2)" % (
student_id, question_id, 0, insert_score)
insert_sql += ",(%s,\'%s\',%s, \'%s\', %s, %s, \'%s\',%s)" % (
arr[0], arr[1], arr[2], arr[3], arr[4], arr[5],
arr[6], arr[7])
if is_new == 1:
new_sql += ",(%s, 1, %s, %s, \'最近新错\', \'重难点\', %s, %s, %s, %s)" % (
student_id, question_id, 0, insert_score,
1, 3, type_id)
insert_score += 1
# self.db_fetcher.commit_sql_cmd(insert_sql, 'mysql_logdata')
if is_new == 1: # update mysql
self.db_fetcher.commit_sql_cmd(new_sql,
'mysql_v3_white_list') # new
else:
self.db_fetcher.commit_sql_cmd(update_sql, 'mysql_white_list')
def getPoints(self):
dict_point = {}
dict_topic_point = {}
sql = 'select id, name, type, question_type, level, parent_id, link_id, topics_id from entity_exam_points' # do something
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
point_id, name, ptype, question_type, level, parent_id, link_id, topics_id = row
point_id = str(point_id)
dict_point[
point_id] = name, ptype, question_type, level, parent_id, link_id
if ptype == 3: #
arr_topic = [long(x) for x in topics_id.strip().split(',')]
for topic in arr_topic:
if topic not in dict_topic_point:
dict_topic_point[topic] = []
dict_topic_point[topic].append(point_id)
return dict_point, dict_topic_point
def getStudentResource(self):
dict_students_resource = {}
str_content = ','.join([str(x) for x in self.dict_students])
sql = "select b.student_id, a.resource_id, b.deadline from neworiental_v3.link_respackage_publish_resource a JOIN neworiental_v3.link_respackage_student b on \
a.publish_id = b.publish_id where a.resource_type = 2 and b.student_id in (%s)" % (
str_content)
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
student_id, resource_id, deadline = row
if resource_id > 0:
if student_id not in dict_students_resource:
dict_students_resource[student_id] = set()
dict_students_resource[student_id].add(resource_id)
return dict_students_resource
def getQuestionBaseInfo(self, question_set):
dict_question_difficulty = {}
str_content = ','.join([str(x) for x in question_set])
sql = "select b.id, b.difficulty from neworiental_v3.entity_question where b.id in (%s)" % str_content
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
question_id, difficulty = row
dict_question_diff[question_id] = int(difficulty)
return dict_question_difficulty
def updateStuAdapt2Difficult(self, range_throld=10, difficulty_throld=10):
dict_exam_question = {}
dict_exam_difficulty = {}
dict_question_topic = self.recommend.getThisQuestionTopic() #
for exam_item in self.exam_list_records:
question, student_id, ret, answer, submit_time, question_type = exam_item
if question in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
question]
arr_point = link_point_id.strip().split(',')
is_right = 1 if answer == 'A' or answer == 'B' else 0
for point in arr_point:
key = '%s-%s' % (student_id, point)
if key not in dict_exam_question:
dict_exam_question[key] = []
dict_exam_difficulty[key] = {}
record = (question, is_right, difficulty, submit_time,
question_type)
dict_exam_question[key].append(record)
if difficulty not in dict_exam_difficulty[key]:
dict_exam_difficulty[key][difficulty] = []
dict_exam_difficulty[key][difficulty].append(record)
question_set = set([x[0] for x in self.practice_list_records])
dict_question_difficulty = self.getQuestionBaseInfo(question_set)
for practice_item in self.practice_list_records:
question, student_id, ret, answer, submit_time, question_type = practice_item
is_right = 1 if ret == 1 else 0
if question in dict_question_difficulty:
difficulty = self.dict_question_difficulty[question]
if question in dict_question_topic:
topic_set = dict_question_topic[question]
for topic in topic_set:
if topic in self.dict_topic_point:
point = self.dict_topic_point[topic]
key = '%s-%s' % (student_id, point)
if key not in dict_exam_question:
dict_exam_question[key] = []
dict_exam_difficulty[key] = {}
if difficulty not in dict_exam_difficulty[key]:
dict_exam_difficulty[key][difficulty] = []
record = (question, is_right, difficulty,
submit_time, question_type)
dict_exam_difficulty[key][difficulty].append(
record)
dict_exam_question[key].append(record)
dict_res = {}
self.db_fetcher.commit_sql_cmd('delete from entity_student_feature',
'mysql_logdata')
for key in dict_exam_question:
arr_content = key.split('-')
student_id, point = arr_content[0], arr_content[1]
question_records = sorted(dict_exam_question[key],
key=lambda x: x[-1],
reverse=True)
right_cnt = 0
throld = min(len(question_records), range_throld)
#if throld < 10: continue
for record_item in question_records[:throld]:
question, is_right, difficulty, submit_time, question_type = record_item
right_cnt += is_right
rateRight = right_cnt / range_throld
adaDiff, pDiff = 0, -1
for difficulty in dict_exam_difficulty[key]:
drecords = sorted(dict_exam_difficulty[key][difficulty],
key=lambda x: x[-1],
reverse=True)
difficulty_throld = min(len(drecords), difficulty_throld)
#if difficulty_throld < 4: continue
dright_cnt = 0
for diff_item in drecords[:difficulty_throld]:
question, is_right, difficulty, submit_time, question_type = diff_item
dright_cnt += is_right
drateRight = dright_cnt / difficulty_throld
if drateRight > pDiff:
adaDiff = difficulty
pDiff = drateRight
point_name, ptype, question_type, level, parent_id, link_id = self.dict_point[
point]
insert_sql = "insert into entity_student_feature(student_id, point_id, point_name, adapt_difficulty, master) values(%s, %s, \'%s\', %s, %s)" \
% (student_id, point, point_name, adaDiff, rateRight)
insert_id = self.db_fetcher.commit_sql_cmd(insert_sql,
'mysql_logdata')
dict_res[key] = rateRight, difficulty
return dict_res
def getStudentScore(self):
dict_student_score = {}
for exam_item in self.exam_list_records:
exam_question, student_id, ret, answer, submit_time, question_type = exam_item
if exam_question in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
exam_question]
a_score, i_score = self.getScore(question_num, answer)
exam_key = '%s-%s' % (student_id, question_exercise_id)
if exam_key not in dict_student_score:
dict_student_score[exam_key] = 0
dict_student_score[exam_key] += i_score
return dict_student_score
def getFirstPoint(self): # point
dict_relation_point13 = {}
sql = "select a.id id3, a.`name` name3, c.id id1, c.`name` name1 from entity_exam_points a join entity_exam_points \
b on b.id = a.parent_id join entity_exam_points c on c.id = b.parent_id where a.type = 3"
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
point3, name3, point1, name1 = row
dict_relation_point13[point3] = name3, point1, name1
return dict_relation_point13
def getExerciseName(self):
dict_exercise_name = {}
sql = "select DISTINCT a.question_exercise_id, b.resource_name from link_question_answer a join neworiental_v3.entity_exercise b \
on b.id = a.question_exercise_id where a.update_time >= \'%s\'" % self.update_time
exercise_rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for exercise_row in exercise_rows:
exercise_id, resource_name = exercise_row
dict_exercise_name[exercise_id] = resource_name
return dict_exercise_name
def getExamData(self, dict_student_score, dict_relation_point13,
dict_exercise_name):
for exam_item in self.exam_list_records: # exam
question, student_id, ret, answer, submit_time, question_type = exam_item
if question in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
question]
arr_points = [int(x) for x in link_point_id.strip().split(',')]
exam_key = '%s-%s' % (student_id, question_exercise_id)
str_point1, str_name1, str_point3, str_name3 = '', '', '', ''
is_first = True
for point3 in arr_points:
name3, point1, name1 = dict_relation_point13[point3]
if is_first == True:
str_point3, str_name3, str_point1, str_name1 = str(
point3), str(name3), str(point1), str(name1)
is_first = False
else:
str_point3 += ',%d' % point3
str_name3 += ',%s' % name3
str_point1 += ',%d' % point1
str_name1 += ',%s' % name1
resource_name = dict_exercise_name[question_exercise_id]
exercise_score = dict_student_score[
exam_key] if exam_key in dict_student_score else 0
a_score, i_score = self.getScore(question_num, answer)
error_text = self.getErrorText(answer)
print '%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s' % (
student_id, link_question_id, question_type, str_point1,
str_name1, str_point3, str_name3, submit_time,
resource_name, exercise_score, question_exercise_id,
a_score, i_score, difficulty, ret, question_num,
error_text, 1)
def getPracticeData(self, dict_relation_point13, dict_question_topic,
dict_question_base_info):
for practice_item in self.practice_list_records: # practice
question, student_id, ret, answer, submit_time, question_type = practice_item
str_point1, str_name1, str_point3, str_name3 = '', '', '', ''
is_first = True
if question in dict_question_topic:
if question in dict_question_topic:
topic_set = dict_question_topic[question]
for topic in topic_set:
if topic in self.dict_topic_point:
arr_point3 = [
int(x) for x in self.dict_topic_point[topic]
]
for point3 in arr_point3:
name3, point1, name1 = dict_relation_point13[
point3]
if is_first == True:
str_point3, str_name3, str_point1, str_name1 = str(
point3), str(name3), str(point1), str(
name1)
is_first = False
else:
str_point3 += ',%s' % point3
str_name3 += ',%s' % name3
str_point1 += ',%s' % point1
str_name1 += ',%s' % name1
a_score, i_score = 0, 0
# 单选题 选择题 填空题
if question_type == '单选题' or question_type == '选择题' or question_type == '填空题':
a_score = 5
else:
a_score = 12
if ret == 1:
i_score = a_score
elif ret == 5:
i_score = 0.5 * a_score
difficulty, qtype = 1, 1
if question in dict_question_base_info:
difficulty, qtype = dict_question_base_info[question]
errorText = '正确' if ret == 1 else '错误'
print '%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s' % (
student_id, question, question_type, str_point1, str_name1,
str_point3, str_name3, submit_time, '推送练习', 0, 0, a_score,
i_score, difficulty, ret, 0, errorText, 0)
def getData(self):
dict_student_score = self.getStudentScore()
dict_relation_point13 = self.getFirstPoint() # point
dict_exercise_name = self.getExerciseName()
dict_question_topic = self.recommend.getThisQuestionTopic(
) # question topic
dict_question_base_info = self.recommend.getThisQuestionBaseInfo(
) # question quality
print '%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s' % \
('学生id', '题目id', '题目类型', '一级考点id', '一级考点名称', '三级考点id', '三级考点名称', '提交时间', '试卷名称', '成绩', '题集id', '题目满分', '题目得分', '题目难度', '答题结果', '试卷题号', '错误原因', '考练类型')
self.getExamData(dict_student_score, dict_relation_point13,
dict_exercise_name) # exam
self.getPracticeData(dict_relation_point13, dict_question_topic,
dict_question_base_info) # practice
def recommendMonday(self, is_new=0, throld=500):
dict_question_topic = self.recommend.getThisQuestionTopic(
) # question topic
d1 = datetime.datetime.now()
d3 = d1 + datetime.timedelta(days=-14)
str_monday = d3.strftime("%Y-%m-%d 00:00:00")
self.db_fetcher.commit_sql_cmd(
"delete from entity_recommend_question_bytopic",
'mysql_white_list') # update
self.importDefault(0, dict_question_topic) # import
is_first, insert_score = 1, 0
new_sql = "insert into sync_student_recommend_question(system_id, resource_type, resource_id, subject_id, tag1, tag2, score, type, type_level, type_id) values"
update_sql = "insert into entity_recommend_question_bytopic(system_id, type,chapter_id, topic_id, question_id, `master`, duration, important, subject_id, score, school_publish, org_id, org_type) values"
dict_student_cnt = {}
records = self.exam_list_records #+ self.practice_list_records
for item in records:
question, student_id, ret, answer, submit_time, question_type = item
if submit_time > str_monday:
if question in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
question]
answer_key = '%s_%s' % (question, student_id)
if answer_key in self.dict_content_answer:
answer = self.dict_content_answer[answer_key]
if answer == 'A' or answer == 'B':
ret = 1
else:
ret = 2
if ret != 1:
if student_id not in dict_student_cnt:
dict_student_cnt[student_id] = 0
if dict_student_cnt[student_id] < throld:
# print '%s\t%s' % (student_id, link_question_id)
if is_first == 1:
update_sql += "(%s, 2, 0, 0, %s, 2, 2, 1, %s, %s, 0, 113, 2)" % (
student_id, link_question_id, 0, insert_score)
if is_new == 1:
new_sql += "(%s, 1, %s, %s, \'最近新错\', \'重难点\', %s, %s, %s, %s)" % (
student_id, link_question_id, 0,
insert_score, 1, 3, 2186)
is_first = 0
else:
update_sql += ",(%s, 2, 0, 0, %s, 2, 2, 1, %s, %s, 0, 113, 2)" % (
student_id, link_question_id, 0, insert_score)
if is_new == 1:
new_sql += "(%s, 1, %s, %s, \'最近新错\', \'重难点\', %s, %s, %s, %s)" % (
student_id, link_question_id, 0,
insert_score, 1, 3, 2186)
dict_student_cnt[student_id] += 1
insert_score += 1
if is_new == 1:
self.db_fetcher.commit_sql_cmd(new_sql, 'mysql_v3_white_list')
else:
self.db_fetcher.commit_sql_cmd(update_sql, 'mysql_white_list')
class CzMathGraph(object):
"""docstring for czMathGraph"""
def __init__(self, stage, subject):
self.fetcher = DataBaseFetcher()
self.topicDict, self.topicImportDict = self.getTopic(stage, subject)
self.quesTopicDict, self.topicQuestionDict = self.getQuestionTopic(
) # static
# student exercise
self.recordList = self.cacheRecord('question_result.txt')
self.topicStudentDict = self.getTopicStudent()
# sample
def cacheRecord(self, fName, maxWin=3000000):
recordList = []
pos = 0
with open(fName) as handleFile:
for line in handleFile:
arrContent = line.strip().split('\t')
studyId, questionId, res = int(arrContent[1]), int(
arrContent[2]), arrContent[5]
isFlag = False
if questionId in self.quesTopicDict:
topicSet = self.quesTopicDict[questionId]
for topic in topicSet:
if topic in self.topicDict:
isFlag = True
break
if isFlag == False: continue
# normalize data
try:
res = int(res)
except:
try:
result = 0
decode_json = json.loads(res)
for resDict in decode_json:
if resDict['result'] == 1:
result += 1
else:
result -= 1
res = 1 if result > 0 else 2
except:
pass
if res != 1: continue # 过滤负样本
recordList.append((studyId, questionId, res))
pos += 1
if pos >= maxWin:
break
return recordList
def getTopicStudent(self):
topicStudentDict = {}
for item in self.recordList:
studyId, questionId, res = item
if questionId not in self.quesTopicDict: continue
for topic in self.quesTopicDict[questionId]:
if topic not in topicStudentDict:
topicStudentDict[topic] = {}
if studyId not in topicStudentDict[topic]:
topicStudentDict[topic][studyId] = 0
topicStudentDict[topic][studyId] += 1
return topicStudentDict
# 统计条件概率
def staticTopicProb(self, topic, topicList):
if topic not in self.topicStudentDict:
return 0.0
fenmuSet = set() # 条件student集合
isFirst = True
for item in topicList:
if item not in self.topicStudentDict: continue
itemSet = set([x for x in self.topicStudentDict[item]])
if isFirst:
fenmuSet = itemSet
else:
fenmuSet = fenmuSet & itemSet
fenmu, fenzi = 0.0, 0.0
for student in fenmuSet:
for item in topicList:
fenmu += self.topicStudentDict[item][student]
if student in self.topicStudentDict[topic]:
fenzi += self.topicStudentDict[topic][student]
p = fenzi / fenmu if fenmu > 0 and fenzi < fenmu else 0.0
return p
# 获取词典
def getTopic(self, stage, subjectId):
topicDict = {}
topicImportDict = {}
sql = "select id, name, is_important from entity_topic where subject_id= %s and stage_id = %s" % (
subjectId, stage)
db_rows = self.fetcher.get_sql_result(sql, "mysql_v3")
for row in db_rows:
topicId, name, important = row
topicDict[topicId] = name
topicImportDict[topicId] = important
return topicDict, topicImportDict
# 获取问题主题
def getQuestionTopic(self):
quesTopicDict = {}
topicQuestionDict = {}
db_rows = self.fetcher.get_sql_result(
"select topic_id, question_id from link_question_topic ",
"mysql_v3")
for row in db_rows:
topicId, questionId = row
if topicId not in topicQuestionDict:
topicQuestionDict[topicId] = []
topicQuestionDict[topicId].append(questionId)
if questionId not in quesTopicDict:
quesTopicDict[questionId] = []
quesTopicDict[questionId].append(topicId)
quesTopicDict = {
key: set(value)
for key, value in quesTopicDict.items()
} # list to set
topicQuestionDict = {
key: set(value)
for key, value in topicQuestionDict.items()
}
return quesTopicDict, topicQuestionDict
# 统计问题正确率
def statisQuestion(self, subject_id):
questionDict = {}
db_rows = self.fetcher.get_sql_result(
"select question_id, sum(answer_num) answernum, sum(right_num) rightnum from entity_trail_question where subject_id = %s GROUP BY question_id "
% subject_id, "mysql_v3")
for row in db_rows:
questionId, answer, right = row
questionDict[questionId] = answer, right
return questionDict
def isLoopGraph(self, pairTopic, iniRelList, childDict):
startTopic, endTopic = pairTopic
if startTopic == endTopic: return True # loop
stackList = [startTopic]
missSet, popSet = set(), set() # init set and pop set
while len(stackList) > 0:
if endTopic in missSet:
return True # the graph is unicom
topic = stackList[-1]
stackList.pop() # pop
if (topic not in childDict) or topic in missSet: continue
popSet.add(topic) # add pop set
childSet = childDict[topic]
for child in childSet:
stackList.append(child)
missSet.add(child)
return False
# 构造有像图知识网络
def getTopicDAG(self, threshold=30, inDegreeThr=3, outDegreeThr=4):
iniRelList = []
relDict = {}
topicList = [topic for topic in self.topicDict]
for i in xrange(len(topicList)):
for j in xrange(i + 1, len(topicList)):
if topicList[i] in self.topicQuestionDict and topicList[
j] in self.topicQuestionDict:
iSet, jSet = self.topicQuestionDict[
topicList[i]], self.topicQuestionDict[topicList[j]]
key = "%s-%s" % (topicList[i], topicList[j])
mLen = len(iSet & jSet)
if mLen > threshold:
relDict[key] = mLen
sortRel = sorted(relDict.items(), key=lambda x: x[1], reverse=True)
inDegreeDict = {} # 入度记录字典
outDegreeDict = {} # 出度记录字典
childDict = {} # child
for item in sortRel:
inDegreeThr, outDegreeThr = 3, 4
arrTopic = [int(x) for x in item[0].split("-")]
if len(arrTopic) != 2: continue
start, end = arrTopic[0], arrTopic[1]
# 判断转移方向
p0 = self.staticTopicProb(start, [end])
p1 = self.staticTopicProb(end, [start])
pairTopic = (start, end) if p1 < p0 else (end, start)
start, end = pairTopic #
if self.topicImportDict[start] < 1:
outDegreeThr = 1
if self.topicImportDict[end] < 1:
inDegreeThr = 1
inDegree = inDegreeDict[end] if end in inDegreeDict else 0
outDegree = outDegreeDict[start] if start in outDegreeDict else 0
isLoop = self.isLoopGraph(pairTopic, iniRelList, childDict)
bFlag = (isLoop == False) and (inDegree < inDegreeThr) and (
outDegree < outDegreeThr)
if bFlag:
iniRelList.append(pairTopic)
if end not in childDict:
childDict[end] = set()
childDict[end].add(start)
# 出度 and 入度
outDegreeDict[start] = 1 + outDegree
inDegreeDict[end] = 1 + inDegree
return iniRelList
# 构建系数矩阵数组
def getRowsNormalize(self, topicList):
rowsData = []
topicLen = len(topicList)
topicIndex = {topicList[i]: i for i in xrange(topicLen)}
for item in self.recordList:
studyId, questionId, res = item
arr = [0] * topicLen
if questionId in self.quesTopicDict:
topicSet = self.quesTopicDict[questionId]
for topic in topicSet:
if topic in topicIndex:
arr[topicIndex[topic]] = 1
sparr = pd.SparseArray(arr)
rowsData.append(arr)
return rowsData
def makeModel(self):
# graph structure
initRelation = self.getTopicDAG() # 概率图构建
relationList = []
stuModel = BayesianModel() # DAG
for edge in initRelation:
try:
start, end = edge
stuModel.add_edge(str(start), str(end))
relationList.append(edge)
except:
continue
# save file
with open('model.txt', 'w') as write_f:
for item in relationList:
write_f.write(
'%s,%s\n' %
(self.topicDict[item[0]], self.topicDict[item[1]]))
# learning from data
topicList = [topic for topic in self.topicDict]
rowsData = self.getRowsNormalize(topicList)
print 'the rows len is:%s' % len(rowsData)
info += "</tr>"
for data in datas:
if type(data)==list:
info += "<tr>"
for k in data:
info += "<td>%s</td>" % str(k)
info += "</tr>"
else:
info += "<tr style='background-color:#EEE;'><td colspan='%d'><b>%s</b></td></tr>" % (len(title), str(data))
info += "</table>"
return info
if __name__=="__main__":
domain_list = get_domain_list()
now_time = datetime.datetime.now()
pre_time = now_time + datetime.timedelta(days=-3)
pre_date = pre_time.strftime('%Y-%m-%d')
title = '异常抓取站点'
data_list = []
for domain in domain_list:
sel_sql = "select count(*) from news_report where publish_date >= \'%s 00:00:00\' and domain = \'%s\' and type = 0 limit 1" % (pre_date, domain)
db_data = db_fetcher.get_sql_result(sel_sql, 'mysql_insight')
domain_count = int(db_data[0][0])
if domain_count == 0:
data_list.append(domain)
data_list = list(set(data_list))
info = create_html_table(data_list, title)
print info
if etype == 0:
for key in biandong_list:
if unicode(key) in title:
etype = 3
return etype
if __name__ == "__main__":
# update news_report company
now_time = datetime.datetime.now()
yes_time = now_time + datetime.timedelta(days=-1)
yes_date = yes_time.strftime('%Y-%m-%d')
condition_sql = "publish_date >= \'%s 00:00:00\' and publish_date <= '%s 23:59:59' and type = 0" % (
yes_date, yes_date)
db_data = db_fetcher.get_sql_result(
'select id, title, content from news_report where %s' % condition_sql,
'mysql_insight')
for pos in range(len(db_data)):
kid, title, content = str(db_data[pos][0]), str(db_data[pos][1]), str(
db_data[pos][2])
try:
topic_coms = comlib.extract_report(
title, content.encode('utf8', 'ignore'), '-1')
reported_coms = ",".join([x[0] for x in topic_coms])
com_id, is_confident = comlib.extract_report(
title, content.encode('utf8', 'ignore'))
reported_com = 0
if com_id and com_id != "0" and is_confident:
reported_com = int(com_id)
event_type = get_event_type(title)
update_sql = "update news_report set reported_com= %s, reported_coms = \'%s\',event_type = %s where id = %s" % (
import sys
reload(sys)
sys.setdefaultencoding('utf-8')
sys.path.append(
os.path.realpath(os.path.join(os.path.dirname(__file__), '../../')))
from common.db_fetcher import DataBaseFetcher
db_fetcher = DataBaseFetcher()
if __name__ == "__main__":
# update news_report company
now_time = datetime.datetime.now()
yes_time = now_time + datetime.timedelta(days=-1)
yes_date = yes_time.strftime('%Y-%m-%d')
db_data = db_fetcher.get_sql_result(
'select id, article_json, publish from kr_articles where publish = \'%s\''
% yes_date, 'mysql_insight')
for pos in range(len(db_data)):
kid = str(db_data[pos][0])
try:
article_json = str(db_data[pos][1])
article_obj = json.loads(article_json, strict=False)
url = 'http://36kr.com/p/%s.html' % kid
title = article_obj['title']
source = "36Kr"
publish_date = '%s 00:00:00' % str(db_data[pos][2])
domain = '36kr.com'
content_html = article_obj['content'].encode(
'utf-8'
) if 'content' in article_obj and article_obj['content'] else ''
class TextAnalysis(object):
media_dict = None
entity_dict = None
seo_extractor = SeoExtractor('../seo/com_df_idf')
def __init__(self, mysql_fetcher=None, handler_redis=None):
self.mysql_fetcher = mysql_fetcher
if mysql_fetcher is None:
self.mysql_fetcher = DataBaseFetcher()
self.handler_redis = handler_redis
if handler_redis is None:
self.handler_redis = redis.Redis(
host='1c34f95e1b12494b.m.cnbja.kvstore.aliyuncs.com',
password='******',
port=6379,
db=5)
self.load_entity_dict()
def set_media_id(self, media_id):
self.media_dict = self.get_media_dict(media_id)
# 通过media_id 与向量字典关联
def set_media_dict(self, media_id, forward_index_dict):
if media_id in forward_index_dict:
self.media_dict = forward_index_dict[media_id]
else:
self.media_dict = self.get_media_dict(media_id)
def load_entity_dict(self):
self.entity_dict = set()
# handle company
company_file = '../../company_recognize/com_name2id.txt'
with open(company_file) as com_f:
for line in com_f:
tokens = line.strip().split('\t')
if len(tokens) != 2:
continue
self.entity_dict.add(tokens[0])
# handle industry
db_industry = self.mysql_fetcher.get_sql_result(
'select distinct name from dict_industry', 'mysql_crm')
for row_industry in db_industry:
self.entity_dict.add(row_industry[0])
# handle organization
db_organization = self.mysql_fetcher.get_sql_result(
'select distinct name_abbr from organization', 'mysql_crm')
for row_organization in db_organization:
self.entity_dict.add(row_organization[0])
# 获取文章关键词-权重值列表
def get_article_weight(self, media_id):
response_list = self.seo_extractor.extract_article(media_id,
title_weight=2,
title_coeff=1.4)
if response_list is None or len(response_list) == 0:
return {}
keyword_dict = {} # result dict
for keyword, weight in response_list:
if keyword in self.entity_dict:
weight *= 1.4
keyword_dict[unicode(keyword, 'utf8')] = weight
keyword_dict = {
key: value
for key, value in keyword_dict.items()
if value > term_weight_threshold
}
if len(keyword_dict) < 5:
keyword_dict = {
key: value
for key, value in keyword_dict.items()
if value > 0.68 * term_weight_threshold
}
return keyword_dict
# 删除历史记录的文本向量
def delete_redis_text(self, update_time_range):
db_data = self.mysql_fetcher.get_sql_result(
"select id from kr_articles where publish < \'%s\'" %
update_time_range, 'mysql_insight')
for i in range(len(db_data)):
media_id = db_data[i][0]
str_key = '%s_%s' % (kForwardIndexRedisKey, media_id)
self.handler_redis.delete(str_key)
# 计算两个向量的余弦相似度
def cos_similarity(self, v1, v2):
if len(v1) != len(v2): # 向量维数必须相等
return 0.0
fen_divisor = 0.0 # 除数
dividend_v1 = 0.0 # 被除数
dividend_v2 = 0.0 # 被除数
for pos in range(len(v1)):
fen_divisor += v1[pos] * v2[pos]
dividend_v1 += v1[pos]**2
dividend_v2 += v2[pos]**2
fen_dividend = math.sqrt(dividend_v1) * math.sqrt(dividend_v2)
return (fen_divisor / fen_dividend if fen_dividend > 0.0 else 0.0)
# 初始化文本向量
def init_vector(self, vector1, dict_weight):
if len(vector1) < 1:
return []
v1 = [] # 文本向量vector
for pos in range(len(vector1)):
if vector1[pos] in dict_weight:
v1.append(dict_weight[vector1[pos]])
else:
v1.append(0.0)
return v1
# 重建media文本信息的正排,并更新redis
def media_text_to_forward_index(self, media_id):
# 获取需要的字符串
dict_term_weight = self.get_article_weight(media_id)
# 存入redis 文本关键词数据 key = media_id
str_key = '%s_%s' % (kForwardIndexRedisKey, media_id)
str_value = json.dumps(dict_term_weight)
self.handler_redis.set(str_key, str_value)
return dict_term_weight
# 重建update_time_range时间之后的media文本信息的倒排,并更新redis
def media_text_to_revert_index(self, update_time_range):
#self.delete_redis_text(update_time_range)
# 更新redis
db_data = self.mysql_fetcher.get_sql_result(
'select id from kr_articles where publish >=\'%s\'' %
update_time_range, 'mysql_insight')
if len(db_data) < 1:
return None
revert_index_dict = {} # 倒排索引字典
n_count = 1
for i in range(len(db_data)):
media_id = db_data[i][0]
# self.cache_media_relate(media_id,update_time_range)
# 缓存倒排索引
media_dict = self.get_media_dict(media_id)
for term, weight in media_dict.items():
if term not in revert_index_dict:
revert_index_dict[term] = {}
revert_index_dict[term][media_id] = weight
str_key = kRevertIndexRedisKey
str_value = str(revert_index_dict)
self.handler_redis.set(str_key, str_value)
return revert_index_dict
# 获取正排
def get_media_dict(self, media_id):
media_dict = None
str_key = '%s_%s' % (kForwardIndexRedisKey, media_id)
str_value = self.handler_redis.get(str_key)
# 判断redis 数据库中是否包含media_id 信息
if str_value is None:
media_dict = self.media_text_to_forward_index(media_id)
else:
media_dict = json.loads(str_value)
return media_dict
# 用倒排计算文本相似度
def calc_simi_using_revert_index(self, revert_index_dict, meta_dict):
if revert_index_dict is None:
return {}
dict_molecule = {} # 分子对象
dict_denominator1 = 0.0 # 分母对象1
result_dict = {} # 结果集字典 key = media_id
media_list = []
# 计算所有的d 与该文档的相似度的分子分母
for term, weight in self.media_dict.items():
dict_denominator1 += weight**2
if term not in revert_index_dict:
continue
doc_weight_list = revert_index_dict[term]
for media_id in doc_weight_list:
# 获取相关列表
media_list.append(media_id)
if media_id in dict_molecule:
dict_molecule[
media_id] += weight * doc_weight_list[media_id]
else:
dict_molecule[
media_id] = weight * doc_weight_list[media_id]
for media_id in media_list:
if media_id not in meta_dict:
continue
x, y, dict_denominator2 = meta_dict[media_id] # 分母对象2
fen_dividend = math.sqrt(dict_denominator1) * math.sqrt(
dict_denominator2)
result_dict[media_id] = dict_molecule[
media_id] / fen_dividend if fen_dividend > 0.0 else 0.0
return result_dict
# 构造相似向量
def dict_merge2list(self, d_media, d_compare):
vec_words = []
b_similarity = False
for media_key in d_media:
if media_key in d_compare:
vec_words.append(media_key)
b_similarity = True
return vec_words, b_similarity
# 用正排计算文本相似度
def calculate_text_weight(self, compare_id, forward_index_dict):
# 判断该向量是否存在
if self.media_dict is None:
return 0.0
if compare_id in forward_index_dict:
compare_dict = forward_index_dict[compare_id]
else:
compare_dict = self.get_media_dict(compare_id)
# 判断比较向量是否存在
if compare_dict is None:
return 0.0
vec_words, b_similarity = self.dict_merge2list(self.media_dict,
compare_dict)
if b_similarity == False:
return 0.0
v1 = self.init_vector(vec_words, self.media_dict)
v2 = self.init_vector(vec_words, compare_dict)
# 计算余弦相似度值
d_result = self.cos_similarity(v1, v2)
return d_result
class Report(object):
"""docstring for Report"""
def __init__(self, update_time='2017-11-01 00:00:00'):
# do something inits
self.db_fetcher = DataBaseFetcher()
self.dict_content_answer = {} # error content
self.update_time = update_time # update time
self.recommend = RecommendQuestion()
self.dict_realtion_quesion, self.dict_question_num, self.dict_question_score = self.getRelationQuestion(
)
self.dict_parent_quesion = self.getChildQuestion()
self.dict_question_diff = self.getRightDifficulty()
self.dict_point, self.dict_topic_point = self.getPoints()
self.dict_students = self.getStudentId()
self.dict_student_score, self.dict_student_records = {}, {
x: []
for x in self.dict_students
}
self.exam_list_records, self.practice_list_records = self.getExerciseRecord(
) #records
# dict
self.dict_question_types = {
1: '选择题',
2: '填空题',
4: '简答题',
6: '综合题',
17: '计算题',
44: '证明题'
}
self.dict_question_difficulty = {
1: '易',
2: '中',
3: '难',
4: '极难'
} # 1:易 2:中 3:难 4:极难
# feedback
self.dict_students_resource = self.getStudentResource() # resource
def getExerciseRecord(self):
exam_list_records = []
practice_list_records = []
sql = "select a.question_id, a.student_id, a.ret_num, a.submit_answer, a.submit_time, b.question_type from entity_student_exercise a join \
neworiental_v3.entity_question b on b.id = a.question_id where a.submit_time > \'%s\' and a.exercise_source = 6" % (
self.update_time)
dict_is_choice = {}
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
question, student_id, ret, answer, submit_time, question_type = row
student_id = long(student_id)
if answer == 'null' or answer == 'None' or answer == '' or answer == 'NULL' or answer == None or len(
answer) == 0:
continue
if question in self.dict_realtion_quesion:
exam_list_records.append([
question, student_id, ret, answer, submit_time,
question_type
])
self.dict_student_records[student_id].append([
question, student_id, ret, answer, submit_time,
question_type
])
self.dict_content_answer['%s_%s' %
(question, student_id)] = answer
elif question in self.dict_parent_quesion:
dict_content = self.dict_parent_quesion[question]
parent_question_id = dict_content['parent_id']
rank = dict_content['rank']
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
parent_question_id]
if question_num >= 17 and question_num <= 21:
if rank == 1:
exam_list_records.append([
parent_question_id, student_id, ret, answer,
submit_time, question_type
])
self.dict_student_records[student_id].append([
parent_question_id, student_id, ret, answer,
submit_time, question_type
])
elif rank == 2:
self.dict_content_answer['%s_%s' %
(parent_question_id,
student_id)] = answer
elif question_num >= 22 and question_num <= 23:
key = '%s_%s' % (parent_question_id, student_id)
if rank == 1:
if answer == 'A':
dict_is_choice[key] = 1
else:
dict_is_choice[key] = 0
elif rank == 2:
if key in dict_is_choice:
if dict_is_choice[key] == 1:
exam_list_records.append([
parent_question_id, student_id, ret,
answer, submit_time, question_type
])
self.dict_student_records[student_id].append([
parent_question_id, student_id, ret,
answer, submit_time, question_type
])
elif rank == 3:
self.dict_content_answer[key] = answer
else:
practice_list_records.append([
question, student_id, ret, answer, submit_time,
question_type
])
return exam_list_records, practice_list_records
def getStudentId(self, file_name='students.txt'):
list_students = []
with open(file_name) as handle_f:
for line in handle_f:
system_id = long(line.strip())
list_students.append(system_id)
set_studends = set(list_students) # students set
str_content = ','.join([str(x) for x in set_studends])
sql = "select a.`system_id`, a.`name` from neworiental_user.entity_user a where type = 2 and a.system_id in (%s)" % str_content
dict_students = {}
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
student_id, name = row
if student_id in set_studends:
dict_students[student_id] = name
return dict_students
def getRightDifficulty(self):
dict_question_diff = {}
sql = "select b.id, b.difficulty from neworiental_v3.entity_question b join link_question_answer a on b.id = a.link_question_id where a.update_time >= \'%s\'" % self.update_time
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
question_id, difficulty = row
dict_question_diff[question_id] = int(difficulty)
return dict_question_diff
def getChildQuestion(self):
dict_parent_list = {}
dict_parent_question = {}
sql = "select a.id, a.parent_question_id from link_question_answer b join neworiental_v3.entity_question a on a.parent_question_id = b.link_answer_id \
where b.question_num >= 17 and b.update_time >= \'%s\'" % self.update_time
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
qid = row[0]
parent_id = row[1]
if parent_id not in dict_parent_list:
dict_parent_list[parent_id] = []
dict_parent_list[parent_id].append(qid)
for parent_id in dict_parent_list:
sort_question = sorted(dict_parent_list[parent_id], reverse=False)
count = 1
for item in sort_question:
dict_parent_question[item] = {
'parent_id': parent_id,
'rank': count
}
count += 1
return dict_parent_question
def getRelationQuestion(self):
dict_realtion_quesion = {}
dict_point_question_num = {}
dict_question_score = {}
sql = "select a.link_question_id, a.link_answer_id, a.link_point_id, a.question_num, b.difficulty, a.question_exercise_id, b.question_type, a.score \
from link_question_answer a join neworiental_v3.entity_question b on a.link_question_id = b.id where a.update_time >= \'%s\'" % self.update_time
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
dict_parent_quesion = {}
link_parent_list = []
for row in rows:
link_question_id, link_answer_id, link_point_id, question_num, difficulty, question_exercise_id, question_type, score = row
dict_realtion_quesion[
link_answer_id] = link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type
dict_question_score[link_question_id] = score
arr_point = link_point_id.strip().split(',')
for point in arr_point:
if point not in dict_point_question_num:
dict_point_question_num[point] = []
dict_point_question_num[point].append([
link_question_id, question_num, difficulty,
question_exercise_id, question_type
])
return dict_realtion_quesion, dict_point_question_num, dict_question_score
def getScore(self, question_num, answer, ascore):
ascore, score = 0, 0
if question_num >= 1 and question_num <= 16:
score = 5 if (answer == 'A' or answer == 'B') else 0
ascore = 5
elif question_num >= 17 and question_num <= 23:
if answer == 'A':
if ascore == 10:
score = 4
elif ascore == 12:
score = 4
elif ascore == 13:
score = 5
elif ascore == 14:
score = 5
elif ascore == 15:
score = 6
elif answer == 'B':
if ascore == 10:
score = 7
elif ascore == 12:
score = 8
elif ascore == 13:
score = 9
elif ascore == 14:
score = 10
elif ascore == 15:
score = 11
elif answer == 'C':
if ascore == 10:
score = 9
elif ascore == 12:
score = 11
elif ascore == 13:
score = 12
elif ascore == 14:
score = 13
elif ascore == 15:
score = 15
elif answer == 'D':
score = ascore
return score
def getRecentlyExercise(throld=5):
set_recent = set()
sql = "select distinct question_exercise_id from link_question_answer order by question_exercise_id desc limit %s" % throld
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
eid = row
eid = long(eid)
set_recent.add(eid)
return set_recent
def getAllScore(self, link_question_id, question_num):
ascore = 0
if link_question_id in self.dict_question_score:
ascore = self.dict_question_score[link_question_id]
else:
if question_num >= 1 and question_num <= 16:
ascore = 5
elif question_num >= 17 and question_num <= 21:
ascore = 12
elif question_num >= 22 and question_num <= 23:
ascore = 10
return ascore
def statQustionReport(self, range_throld=4, range_target=20):
dict_students_point_question = {}
dict_student_score = {}
for item in self.exam_list_records:
question, student_id, ret, answer, submit_time, question_type = item
if question in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
question]
arr_points = link_point_id.strip().split(',')
if student_id not in dict_student_score:
dict_student_score[student_id] = 0
ascore = self.getAllScore(link_question_id, question_num)
score = self.getScore(question_num, answer, ascore)
dict_student_score[student_id] += score
is_right = (answer == 'A') or (answer == 'B')
if student_id not in dict_students_point_question:
dict_students_point_question[student_id] = {} # student id
point_name = '-'.join([str(x) for x in arr_points]) # name
if point_name not in dict_students_point_question[student_id]:
dict_students_point_question[student_id][point_name] = []
dict_students_point_question[student_id][point_name].append(
(link_question_id, is_right, question_type, difficulty,
submit_time)) # question
dict_res_student_point_question = {}
for student_id in dict_students_point_question:
target_rate = 0.5
if student_id in dict_student_score:
target_rate = (dict_student_score[student_id] * 0.2 *
1.2) / 150
dict_point_student_question = dict_students_point_question[
student_id]
dict_res_student_point_question[student_id] = {}
for point_name in dict_point_student_question:
arr_question = dict_point_student_question[point_name]
target_questions = []
sort_question = sorted(arr_question,
key=lambda x: x[-1],
reverse=True)
right_rate, cnt_rate = 0, range_target
if len(sort_question) < cnt_rate: cnt_rate = len(sort_question)
for item in sort_question[:cnt_rate]:
link_question_id, is_right, qtype, difficulty, submit_time = item
if is_right == 0:
target_questions.append(
(link_question_id, qtype, difficulty, submit_time))
else:
right_rate += 1
if right_rate / cnt_rate < target_rate and len(
target_questions) > 0:
dict_res_student_point_question[student_id][
point_name] = target_questions
return dict_res_student_point_question
def getErrorText(self, answer):
if answer == 'C':
return '审题时,粗心看错了'
elif answer == 'D':
return '审题时,题意读不懂'
elif answer == 'E':
return '析题时,思路模糊不清'
elif answer == 'F':
return '析题时,思路方向错误'
elif answer == 'G':
return '解题时,公式记错了'
elif answer == 'H':
return '解题时,计算出错了'
elif answer == 'I':
return '未作答(或未完成),时间来不及了'
elif answer == 'A' or answer == 'B':
return '答题正确'
def getQuestionWords(self):
dict_question_words = {}
str_question = ','.join([
str(self.dict_realtion_quesion[x][0])
for x in self.dict_realtion_quesion
])
str_sql = "select c.id, c.subject_id, t.type_id,t.struct_id, c.json_data from neworiental_v3.entity_question c left join neworiental_v3.entity_question_type t on \
t.type_id=c.question_type_id where c.id in (%s)" % str_question
s_rows = self.db_fetcher.get_sql_result(str_sql, 'mysql_logdata')
for row in s_rows:
question, subject_id, type_id, struct_id, json_data = row
if json_data != '' and json_data != 'None' and json_data != None:
keywords, res = sq.predict(question, subject_id, type_id,
struct_id, json_data)
dict_question_words[question] = keywords, res
return dict_question_words
def getPoint2Question(self):
dict_point_org_question = {}
for answer_id in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
answer_id]
arr_point = link_point_id.strip().split(',')
for item in arr_point:
if item not in dict_point_org_question:
dict_point_org_question[item] = []
dict_point_org_question[item].append(link_question_id)
return dict_point_org_question
def pointsRecQuestion(self,
dict_students_point_question,
throld=4,
error_range=3):
# 1,2 choice question 1:easy 2:difficulty 3,4: comprehensive problem 3:easy 4:difficulty
# dict_point_org_question = self.getPoint2Question() # org question point
dict_question_text = self.getQuestionWords()
dict_question_base_info = self.recommend.getThisQuestionBaseInfo(
) # question quality
dict_question_topic = self.recommend.getThisQuestionTopic(
) # question topic
# self.recommendMonday(dict_question_base_info) # error questionsss
dict_question_target = {}
dict_student_recommend_question = {}
cid = 1
student_target = open('student_target.txt', 'w')
for student_id in dict_students_point_question:
sort_student_item = sorted(
dict_students_point_question[student_id].items(),
key=lambda x: len(x[-1]),
reverse=False)
student_name = self.dict_students[student_id]
haveTime = 60
recommend_questions = []
pre_set = set()
for item_target in sort_student_item:
if haveTime <= 0: break
item_point, arr_question = item_target
item_one = item_point.strip().split('-')[0]
key = '%s-%s' % (student_id, item_one)
pre_set = pre_set | set([x[0] for x in arr_question]) #
if len(arr_question) > error_range:
arr_question = arr_question[:error_range]
for base_question, qtype, difficulty, submit_time in arr_question:
if haveTime <= 0: break
if qtype == '选择题':
qtype = 1
elif qtype == '填空题':
qtype = 2
else:
qtype = 3
keywords, text = dict_question_text[base_question]
text = text.replace('\n', '').strip('\r').strip() # filter
base_question_key = '%s-%s' % (base_question, difficulty)
if base_question_key in dict_question_target:
target_questions = dict_question_target[
base_question_key]
else:
target_questions = self.recommend.getEsResult(
base_question, text, keywords, difficulty, qtype,
pre_set, throld)
dict_question_target[
base_question_key] = target_questions
for rec_question in target_questions:
if haveTime <= 0: break
if rec_question in pre_set: continue
haveTime += -1
recommend_questions.append(
(base_question, keywords, rec_question, item_one,
difficulty))
pre_set.add(rec_question)
insert_score = 0
for rec_item in recommend_questions:
source_question, keywords, rec_question, item_point, difficulty = rec_item
point_name, ptype, question_type, level, parent_id, link_id = self.dict_point[
item_point]
type_id = 2186
if rec_question in dict_question_base_info:
difficulty, question_type, upload_id = dict_question_base_info[
rec_question]
else:
upload_id = 0
if rec_question in dict_question_topic:
set_topic = dict_question_topic[rec_question]
if len(set_topic) > 0: type_id = set_topic.pop()
str_time = datetime.datetime.strftime(datetime.datetime.now(),
'%Y-%m-%d %H:%M:%S')
print "%s\t%s\t1\t%s\t%s\t针对练习\t重点\t%s\t%s\t%s\t%s\t%s" % (
cid, student_id, rec_question, 4, insert_score, str_time,
1, 3, type_id)
student_target.write(
"%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\n" %
(cid, student_id, student_name, item_point, point_name,
source_question, rec_question, keywords, difficulty))
insert_score += 1
cid += 1
def getPoints(self):
dict_point = {}
dict_topic_point = {}
sql = 'select id, name, type, question_type, level, parent_id, link_id, topics_id from entity_exam_points' # do something
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
point_id, name, ptype, question_type, level, parent_id, link_id, topics_id = row
point_id = str(point_id)
dict_point[
point_id] = name, ptype, question_type, level, parent_id, link_id
if ptype == 3: #
arr_topic = [long(x) for x in topics_id.strip().split(',')]
for topic in arr_topic:
if topic not in dict_topic_point:
dict_topic_point[topic] = []
dict_topic_point[topic].append(point_id)
return dict_point, dict_topic_point
def getStudentResource(self):
dict_students_resource = {}
str_content = ','.join([str(x) for x in self.dict_students])
sql = "select b.student_id, a.resource_id, b.deadline from neworiental_v3.link_respackage_publish_resource a JOIN neworiental_v3.link_respackage_student b on \
a.publish_id = b.publish_id where a.resource_type = 2 and b.student_id in (%s)" % (
str_content)
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
student_id, resource_id, deadline = row
if resource_id > 0:
if student_id not in dict_students_resource:
dict_students_resource[student_id] = set()
dict_students_resource[student_id].add(resource_id)
return dict_students_resource
def getQuestionBaseInfo(self, question_set):
dict_question_difficulty = {}
str_content = ','.join([str(x) for x in question_set])
sql = "select b.id, b.difficulty from neworiental_v3.entity_question where b.id in (%s)" % str_content
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
question_id, difficulty = row
dict_question_diff[question_id] = int(difficulty)
return dict_question_difficulty
def getStudentScore(self):
dict_student_score = {}
for exam_item in self.exam_list_records:
exam_question, student_id, ret, answer, submit_time, question_type = exam_item
if exam_question in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
exam_question]
ascore = self.getAllScore(link_question_id, question_num)
i_score = self.getScore(question_num, answer, ascore)
exam_key = '%s-%s' % (student_id, question_exercise_id)
if exam_key not in dict_student_score:
dict_student_score[exam_key] = 0
dict_student_score[exam_key] += i_score
return dict_student_score
def getFirstPoint(self): # point
dict_relation_point13 = {}
sql = "select a.id id3, a.`name` name3, c.id id1, c.`name` name1 from entity_exam_points a join entity_exam_points \
b on b.id = a.parent_id join entity_exam_points c on c.id = b.parent_id where a.type = 3"
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
point3, name3, point1, name1 = row
dict_relation_point13[point3] = name3, point1, name1
return dict_relation_point13
def getExerciseName(self):
dict_exercise_name = {}
sql = "select DISTINCT a.question_exercise_id, b.resource_name from link_question_answer a join neworiental_v3.entity_exercise b \
on b.id = a.question_exercise_id where a.update_time >= \'%s\'" % self.update_time
exercise_rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for exercise_row in exercise_rows:
exercise_id, resource_name = exercise_row
dict_exercise_name[exercise_id] = resource_name
return dict_exercise_name
def getExamData(self, dict_student_score, dict_relation_point13,
dict_exercise_name):
for exam_item in self.exam_list_records: # exam
question, student_id, ret, answer, submit_time, question_type = exam_item
if question in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
question]
arr_points = [int(x) for x in link_point_id.strip().split(',')]
exam_key = '%s-%s' % (student_id, question_exercise_id)
str_point1, str_name1, str_point3, str_name3 = '', '', '', ''
is_first = True
for point3 in arr_points:
name3, point1, name1 = dict_relation_point13[point3]
if is_first == True:
str_point3, str_name3, str_point1, str_name1 = str(
point3), str(name3), str(point1), str(name1)
is_first = False
else:
str_point3 += ',%d' % point3
str_name3 += ',%s' % name3
str_point1 += ',%d' % point1
str_name1 += ',%s' % name1
resource_name = dict_exercise_name[question_exercise_id]
exercise_score = dict_student_score[
exam_key] if exam_key in dict_student_score else 0
a_score, i_score = self.getScore(question_num, answer)
error_text = self.getErrorText(answer)
print '%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s' % (
student_id, link_question_id, question_type, str_point1,
str_name1, str_point3, str_name3, submit_time,
resource_name, exercise_score, question_exercise_id,
a_score, i_score, difficulty, ret, question_num,
error_text, 1)
def getPracticeData(self, dict_relation_point13, dict_question_topic,
dict_question_base_info):
for practice_item in self.practice_list_records: # practice
question, student_id, ret, answer, submit_time, question_type = practice_item
str_point1, str_name1, str_point3, str_name3 = '', '', '', ''
is_first = True
if question in dict_question_topic:
if question in dict_question_topic:
topic_set = dict_question_topic[question]
for topic in topic_set:
if topic in self.dict_topic_point:
arr_point3 = [
int(x) for x in self.dict_topic_point[topic]
]
for point3 in arr_point3:
name3, point1, name1 = dict_relation_point13[
point3]
if is_first == True:
str_point3, str_name3, str_point1, str_name1 = str(
point3), str(name3), str(point1), str(
name1)
is_first = False
else:
str_point3 += ',%s' % point3
str_name3 += ',%s' % name3
str_point1 += ',%s' % point1
str_name1 += ',%s' % name1
a_score, i_score = 0, 0
# 单选题 选择题 填空题
if question_type == '单选题' or question_type == '选择题' or question_type == '填空题':
a_score = 5
else:
a_score = 12
if ret == 1:
i_score = a_score
elif ret == 5:
i_score = 0.5 * a_score
difficulty, qtype = 1, 1
if question in dict_question_base_info:
difficulty, qtype, upload_id = dict_question_base_info[
question]
errorText = '正确' if ret == 1 else '错误'
print '%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s' % (
student_id, question, question_type, str_point1, str_name1,
str_point3, str_name3, submit_time, '推送练习', 0, 0, a_score,
i_score, difficulty, ret, 0, errorText, 0)
def getData(self):
dict_student_score = self.getStudentScore()
dict_relation_point13 = self.getFirstPoint() # point
dict_exercise_name = self.getExerciseName()
dict_question_topic = self.recommend.getThisQuestionTopic(
) # question topic
dict_question_base_info = self.recommend.getThisQuestionBaseInfo(
) # question quality
print '%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s\t%s' % \
('学生id', '题目id', '题目类型', '一级考点id', '一级考点名称', '三级考点id', '三级考点名称', '提交时间', '试卷名称', '成绩', '题集id', '题目满分', '题目得分', '题目难度', '答题结果', '试卷题号', '错误原因', '考练类型')
self.getExamData(dict_student_score, dict_relation_point13,
dict_exercise_name) # exam
self.getPracticeData(dict_relation_point13, dict_question_topic,
dict_question_base_info) # practice
def recommendMonday(self, dict_question_base_info, is_new=1, throld=500):
dict_question_topic = self.recommend.getThisQuestionTopic(
) # question topic
d1 = datetime.datetime.now()
d3 = d1 + datetime.timedelta(days=-7)
str_monday = d3.strftime("%Y-%m-%d 00:00:00")
is_first, insert_score = 1, 0
dict_student_cnt = {}
records = self.exam_list_records #+ self.practice_list_records
for item in records:
question, student_id, ret, answer, submit_time, question_type = item
if submit_time > str_monday:
if question in self.dict_realtion_quesion:
link_question_id, link_point_id, question_num, difficulty, question_exercise_id, question_type = self.dict_realtion_quesion[
question]
answer_key = '%s_%s' % (question, student_id)
if answer_key in self.dict_content_answer:
answer = self.dict_content_answer[answer_key]
if answer == 'A' or answer == 'B':
ret = 1
else:
ret = 2
if ret != 1:
if student_id not in dict_student_cnt:
dict_student_cnt[student_id] = 0
if dict_student_cnt[student_id] < throld:
# print '%s\t%s' % (student_id, link_question_id)
if link_question_id in dict_question_base_info:
difficulty, question_type, upload_id = dict_question_base_info[
link_question_id]
else:
upload_id = 0
print "%s\t1\t%s\t%s\t\'最近新错\'\t\'重难点\'\t%s\t%s\t%s\t%s" % (
student_id, link_question_id, 0, insert_score, 1,
3, 2186)
dict_student_cnt[student_id] += 1
insert_score += 1
class SimiTags(object):
def __init__(self):
self.db_fetcher = DataBaseFetcher()
self.tag2comlist = self.load_info(
'select cid,tag from crm.company_tag')
self.tag_child = self.load_info(
'select tag,parent_tag from crm.tag_tag_relation')
self.tag_parent = self.load_info(
'select parent_tag,tag from crm.tag_tag_relation')
self.total_num, self.manual_tag_count = self.tag_cid()
def load_info(self, cmd):
temp_dict = {}
db_row = self.db_fetcher.get_sql_result(cmd, 'mysql_readall')
for row in db_row:
leaf, root = row
if root not in temp_dict: temp_dict[root] = []
temp_dict[root].append(leaf)
return temp_dict
def tag_cid(self):
db_row = self.db_fetcher.get_sql_result(
'select count(distinct cid) from crm.company_tag', 'mysql_readall')
total_num = db_row[0][0]
manual_tag_count = {}
db_row = self.db_fetcher.get_sql_result(
'select cid,tag from crm.company_tag where type != 5',
'mysql_readall')
for row in db_row:
crm_id, tag = row
if tag not in manual_tag_count: manual_tag_count[tag] = 0
manual_tag_count[tag] += 1
return total_num, manual_tag_count
def get_correlation(self):
similarity_tag = {}
tag_corre_dict = {}
f = 0
for tag1 in self.tag2comlist:
tag_corre_dict = {}
if tag1.lower() != '人工智能': continue
if tag1 not in self.manual_tag_count: continue
manual_num_x = self.manual_tag_count[tag1]
if manual_num_x < 30: continue
l1 = self.tag2comlist[tag1]
sum_x = len(l1)
if sum_x < 100: continue
for tag2 in self.tag2comlist:
if tag1 == tag2: continue
if tag2 not in self.tag2comlist or tag2 not in self.manual_tag_count:
continue
manual_num = self.manual_tag_count[tag2]
if manual_num < 2: continue
l2 = self.tag2comlist[tag2]
sum_y = len(l2)
if sum_y > sum_x * 1.5: continue
xy = len(set(l1) & set(l2))
if xy < 5: continue
pf = xy * 1.0 / sum_x
if pf > 0.6: continue
pc = xy * 1.0 / sum_y
pnc = (sum_x - xy + 1) * 1.0 / (self.total_num - sum_y)
if pc < 0.01: continue
if pnc != 0:
value = pc / pnc
if value < 1: continue
correlation = math.pow(xy, 0.2) * math.pow(value, 0.8)
tag_corre_dict[tag2] = correlation
tag_items = tag_corre_dict.items()
tag_heap = heapq.nlargest(len(tag_items),
tag_items,
key=lambda x: x[-1])
tag_heap = tag_heap[:40]
if len(tag_heap) == 0: continue
re = map(lambda x: x[0], tag_heap)
if len(re) == 0: continue
similarity_tag[tag1] = re
print tag1, '\t', "%s" % json.dumps(
re, ensure_ascii=False).encode('utf8')
return similarity_tag
def rm_sub(self, tag_heap):
abandon_l = []
for i in range(0, len(tag_heap)):
tag1, weight = tag_heap[i]
if tag1 not in self.tag2comlist: continue
l1 = self.tag2comlist[tag1]
sum_x = len(l1)
tag1_p, tag1_c = [], []
if tag1 in self.tag_child: tag1_c = self.tag_child[tag1]
if tag1 in self.tag_parent: tag1_p = self.tag_parent[tag1]
for j in range(i + 1, len(tag_heap) - 1):
tag2, weight = tag_heap[j]
if tag2 in tag1_p or tag2 in tag1_c:
abandon_l.append(j)
continue
if tag1.find(tag2) != -1 or tag2.find(tag1) != -1:
abandon_l.append(j)
continue
l2 = self.tag2comlist[tag2]
sum_y = len(l2)
xy = len(set(l1) & set(l2))
if (xy * 1.0 / sum_y) > 0.8: abandon_l.append(j)
if (xy * 1.0 / sum_x) > 0.6: abandon_l.append(j)
re_l = []
for i in range(0, len(tag_heap) - 1):
if i in abandon_l: continue
else: re_l.append(tag_heap[i][0])
return re_l
class RecommendQuestion(object):
def __init__(self):
self.db_fetcher = DataBaseFetcher() # mysql handle
self.dict_topic = self.getTopicDict() # topic
self.dict_quality = {5: 25, 4: 20, 3: 15, 2: 10, 1: 5}
self.dict_question_base_info = self.getQuestionBaseInfo() # base
self.dict_question_quality = self.getQuestionQuality()
self.dict_question_topic, self.dict_topic_question = self.getQuestionTopic(
) # topic
def getThisQuestionTopic(self):
return self.dict_question_topic
def getThisQuestionBaseInfo(self):
return self.dict_question_base_info
def getQuestionBaseInfo(self, save_file='question_base.txt'):
dict_question_base_info = {}
max_num = 0
with open(save_file) as handle_f:
for line in handle_f:
arr = line.strip().split('\t')
if len(arr) != 3: continue
qid, difficulty, question_type, upload_id = long(arr[0]), int(
arr[1]), int(arr[2]), str(arr[3]).strip()
try:
upload_id = long(upload_id)
except:
upload_id = 0
dict_question_base_info[
qid] = difficulty, question_type, upload_id
max_num = qid
sql = "select id, difficulty, question_type, upload_id from neworiental_v3.entity_question where subject_id = 4 and id > %s and state != \'DISABLED\' order by id asc" % max_num
rows = self.db_fetcher.get_sql_result(sql, "mysql_logdata")
with open(save_file, 'a') as write_f:
for row in rows:
qid, difficulty, str_question_type, upload_id = row
question_type = 1
if str_question_type == '选择题' or str_question_type == '单选题':
question_type = 1
elif str_question_type == '填空题':
question_type = 2
else:
question_type = 3
dict_question_base_info[
qid] = difficulty, question_type, upload_id
write_f.write('%s\t%s\t%s\t%s\n' %
(qid, difficulty, question_type, upload_id))
return dict_question_base_info
def getQuestionQuality(self, save_file='quality.txt'):
dict_question_quality = {}
max_num = 0
with open(save_file) as handle_f:
for line in handle_f:
arr = line.strip().split('\t')
if len(arr) != 3: continue
qid, question_id, extra_score = arr[0], long(arr[1]), int(
arr[2])
dict_question_quality[question_id] = extra_score
max_num = qid
sql = "select id, question_id, extra_score from neworiental_v3.entity_question_quality where id > %s" % max_num
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
with open(save_file, 'a') as write_f:
for row in rows:
qid, question_id, extra_score = row
dict_question_quality[question_id] = extra_score
write_f.write('%s\t%s\t%s\n' % (qid, question_id, extra_score))
return dict_question_quality
def getQuestionTopic(self, save_file='topic.txt'):
dict_question_topic, dict_topic_question = {}, {}
max_num = 0
with open(save_file) as handle_f:
for line in handle_f:
arr = line.strip().split('\t')
if len(arr) != 3: continue
tid, question_id, topic_id = arr[0], arr[1], arr[2]
question_id = long(question_id)
topic_id = long(topic_id)
if question_id not in dict_question_topic:
dict_question_topic[question_id] = set()
if topic_id not in dict_topic_question:
dict_topic_question[topic_id] = {}
extra_score = 3
if question_id in self.dict_question_quality:
extra_score = self.dict_question_quality[question_id]
difficulty, question_type = 1, 1
if question_id in self.dict_question_base_info:
difficulty, question_type, upload_id = self.dict_question_base_info[
question_id]
dict_question_topic[question_id].add(topic_id) # add
key = '%s-%s' % (difficulty, question_type)
if key not in dict_topic_question[topic_id]:
dict_topic_question[topic_id][key] = []
dict_topic_question[topic_id][key].append(
(question_id, extra_score))
max_num = tid
sql = "select id, question_id, topic_id from neworiental_v3.link_question_topic where id > %s" % max_num
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
with open(save_file, 'a') as write_f:
for row in rows:
tid, question_id, topic_id = row
if question_id not in dict_question_topic:
dict_question_topic[question_id] = set()
if topic_id not in dict_topic_question:
dict_topic_question[topic_id] = {}
extra_score = 3
if question_id in self.dict_question_quality:
extra_score = self.dict_question_quality[question_id]
difficulty, question_type = 1, 1
if question_id in self.dict_question_base_info:
difficulty, str_question_type, upload_id = self.dict_question_base_info[
question_id]
if str_question_type == '选择题' or str_question_type == '单选题':
question_type = 1
elif str_question_type == '填空题':
question_type = 2
else:
question_type = 3
key = '%s-%s' % (difficulty, question_type)
dict_question_topic[question_id].add(topic_id) # add
if key not in dict_topic_question[topic_id]:
dict_topic_question[topic_id][key] = []
dict_topic_question[topic_id][key].append(
(question_id, extra_score))
write_f.write('%s\t%s\t%s\n' % (tid, question_id, topic_id))
for topic in dict_topic_question: # sort
for key in dict_topic_question[topic]:
dict_topic_question[topic][key] = sorted(
dict_topic_question[topic][key],
key=lambda x: x[-1],
reverse=True) #
return dict_question_topic, dict_topic_question
def getTopicDict(self):
dict_topic = {}
sql = "select id, `name` from neworiental_v3.entity_topic where subject_id = 4"
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
topic_id, name = row
topic_id = str(topic_id)
dict_topic[topic_id] = name
return dict_topic
def getQuestionRate(self):
dict_question_rate = {}
sql = "select question_id, rate from question_accuracy"
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
question_id, rate = row
rate = float(rate)
dict_question_rate[question_id] = rate
return dict_question_rate
def getHeaders(self, teacher_id='eefbac5a4e58432ca317642a2077d362'):
return {
'Host':
'jiaoshi.okjiaoyu.cn',
'Connection':
'keep-alive',
'Accept':
'application/json, text/javascript, */*; q=0.01',
'X-Requested-With':
'XMLHttpRequest',
'is_new_okay':
'1',
'User-Agent':
'Mozilla/5.0 (Windows NT 6.1; WOW64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/60.0.3112.78 Safari/537.36',
'Referer':
'http://jiaoshi.okjiaoyu.cn/quizcenter_vm/quizcenter',
'Accept-Encoding':
'gzip, deflate',
'Accept-Language':
'zh-CN,zh;q=0.8,en;q=0.6',
'Cookie':
'_ga=GA1.2.1647528971.1502935646; _gid=GA1.2.1532869714.1506481969; org_id=113; teacher_id=%s; Hm_lvt_2014de1ca4ec84db492ebee33b1dc46c=1506044442,1506324027,1506407711,1506479104; Hm_lpvt_2014de1ca4ec84db492ebee33b1dc46c=1506492873'
% teacher_id
}
def getUrlContent(self, url):
req = urllib2.Request(url, headers=self.getHeaders())
hh = urllib2.HTTPHandler()
opener = urllib2.build_opener(hh)
reply = opener.open(req, timeout=30)
if reply.info().get('Content-Encoding') == 'gzip':
buf = StringIO(reply.read())
f = gzip.GzipFile(fileobj=buf)
res = f.read()
f.close()
buf.close()
reply.close()
else:
res = reply.read()
return res
def normalLeven(self, str1, str2):
len_str1 = len(str1) + 1
len_str2 = len(str2) + 1
#create matrix
matrix = [0 for n in range(len_str1 * len_str2)]
#init x axis
for i in range(len_str1):
matrix[i] = i
#init y axis
for j in range(0, len(matrix), len_str1):
if j % len_str1 == 0:
matrix[j] = j // len_str1
for i in range(1, len_str1):
for j in range(1, len_str2):
if str1[i - 1] == str2[j - 1]:
cost = 0
else:
cost = 1
matrix[j * len_str1 + i] = min(
matrix[(j - 1) * len_str1 + i] + 1,
matrix[j * len_str1 + (i - 1)] + 1,
matrix[(j - 1) * len_str1 + (i - 1)] + cost)
return matrix[-1]
def translate(self, str):
line = str.strip().decode('utf-8', 'ignore')
p2 = re.compile(ur'[^\u4e00-\u9fa5]')
zh = " ".join(p2.split(line)).strip()
zh = ",".join(zh.split())
outStr = zh
return outStr
def calScoreQustion(self, question_id, list_rank):
dict_score = {}
pos = 0
dict_qid_type = {}
set_source = self.dict_question_topic[
question_id] if question_id in self.dict_question_topic else set()
for item in list_rank:
qid, qtype, topic_list, extra_score = item
set_target = self.dict_question_topic[
qid] if qid in self.dict_question_topic else set()
score = (1 - numpy.tanh(
0.03 * pos)) * 60 + self.dict_quality[extra_score]
if len(set_target & set_source) > 0:
score += 15
dict_score[qid] = score
dict_qid_type[qid] = qtype
pos += 1
sort_res = sorted(dict_score.items(), key=lambda x: x[1], reverse=True)
list_res = []
for item in sort_res:
qid = item[0]
qtype = dict_qid_type[qid]
list_res.append((qid, qtype))
return list_res
def randomTopicHeader(self, question_id, list_res, pre_set, rank_size,
throld_size):
# 头部数据处理
if question_id in self.dict_question_topic:
topic_set = self.dict_question_topic[question_id]
tLen = len(topic_set)
if tLen > 0:
index = random.randint(0, tLen - 1)
topic = list(topic_set)[index] # first
if question_id in self.dict_question_base_info:
difficulty, qtype, upload_id = self.dict_question_base_info[
question_id]
key = '%s-%s' % (difficulty, qtype)
if key in self.dict_topic_question[topic]:
list_res_question = []
arr_content_question = self.dict_topic_question[topic][
key]
for content_item in arr_content_question:
res_question, extra_score = content_item
if res_question not in pre_set and res_question != question_id:
list_res_question.append(res_question)
if len(list_res_question) > rank_size: break
rnt = throld_size - len(list_res)
while rnt > 0 and len(list_res_question) > 0:
pos = random.randint(0, len(list_res_question) - 1)
list_res.append(list_res_question[pos])
rnt += -1
return list_res
def getEsResult(self,
question_id,
text,
keywords,
difficulty,
bqtype,
pre_set,
throld_size,
throld_page=10,
throld_cost=5,
rank_size=20):
"""
questionType: 1 选择题 2 填空题 3 判断题 4 简答题 6 综合题
difficulty : 1:易 2:中 3:难 4:极难
"""
list_rank = []
headers = self.getHeaders() # get headers
str_pre = ''
if bqtype == 1: bqtype = 101
for page in range(1, throld_page):
try:
url = "http://jiaoshi.okjiaoyu.cn/teacher-center/search_singlequiz?keyword=%s&subject_id=4&queryType=4&difficulty=%s&type=%s&page=%s" % (
keywords, difficulty, bqtype, page)
# url = "http://jiaoshi.okjiaoyu.cn/teacher-center/search_singlequiz?_=1506480814420&teacher_id=ce36ea7e9c864af39d186b8e8b672864&type=&difficulty=%s&page=%s&keyword=%s&subject_id=4" % (difficulty, page, keywords)
res = self.getUrlContent(url)
res = res.replace('\r', '').replace('\n', '').replace(
'null', '').replace(':,', ':\"\",').strip()
dict_result = json.loads(res.encode('utf8'))
total_page = dict_result['data']['total_page']
if total_page < throld_page:
throld_page = total_page # range update
list_result = dict_result['data']['list']
for item in list_result:
qid = item['id']
question_body = self.translate(item['question_body'])
analysis = str(item['analysis']).strip().replace(' ', '')
topic_list = item['topic_list']
if len(topic_list) >= 1:
type_name = item['type_name']
if type_name == '选择题':
option_list = item['option_list']
if len(option_list) != 4: continue
cost = self.normalLeven(str_pre, question_body)
if qid in self.dict_question_quality:
extra_score = self.dict_question_quality[qid]
else:
extra_score = 1
if item['type_alias'] == '单选题' or item[
'type_alias'] == '选择题':
qtype = 1
elif item['type_alias'] == '填空题':
qtype = 2
else:
qtype = 3
bCharge = (cost > throld_cost) and (len(analysis) > 50)
if bCharge:
list_rank.append(
(qid, qtype, item['topic_list'], extra_score))
str_pre = question_body
except:
continue
list_index = self.calScoreQustion(question_id, list_rank) # rank
res_size = throld_size - 1 if len(
list_index) > throld_size - 1 else len(list_index)
list_res = [x[0] for x in list_index[:res_size]] # end output
list_res = self.randomTopicHeader(
question_id, list_res, pre_set, rank_size,
throld_size) # header question random
return list_res
class QualityQuestion(object):
"""docstring for QualityQuestion"""
def __init__(self):
self.db_fetcher = DataBaseFetcher() # mysql handle
self.redis_cache = CacheHelper('127.0.0.1', 6379, 1, '') # redis
self.dict_simple_science, self.dict_simple_art = self.getSimpleQustion(
)
self.dict_question_topic = self.getQuestionTopic()
self.dict_topic = self.getTopicDict()
def getQuestionTopic(self, save_file='topic.txt'):
dict_question_topic = {}
max_num = 0
with open(save_file) as handle_f:
for line in handle_f:
arr = line.strip().split('\t')
if len(arr) != 3: continue
tid, question_id, topic_id = arr[0], long(arr[1]), int(arr[2])
if question_id not in dict_question_topic:
dict_question_topic[question_id] = set()
dict_question_topic[question_id].add(topic_id)
max_num = tid
sql = "select id, question_id, topic_id from neworiental_v3.link_question_topic where id > %s" % max_num
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
with open(save_file, 'a') as write_f:
for row in rows:
tid, question_id, topic_id = row
if question_id not in dict_question_topic:
dict_question_topic[question_id] = set()
dict_question_topic[question_id].add(topic_id)
write_f.write('%s\t%s\t%s\n' % (tid, question_id, topic_id))
return dict_question_topic
def getTopicDict(self):
dict_topic = {}
sql = "select id, `name` from neworiental_v3.entity_topic where subject_id = 4"
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
topic_id, name = row
topic_id = int(topic_id)
dict_topic[topic_id] = name
return dict_topic
def makeSet2Dict(self, set_simple):
dict_simple = {}
for item in set_simple:
arr = item.split('\t')
qid, question_type, json_data = arr[0], arr[1], arr[2]
qid = long(qid)
dict_simple[qid] = question_type, json_data
return dict_simple
def getSimpleQustion(self):
dict_simple_science = {}
dict_simple_art = {}
is_redis = self.redis_cache.exists(
'62951166961') and self.redis_cache.exists('62951084550')
if is_redis:
# science
set_simple_science = self.redis_cache.smembers('62951166961')
dict_simple_science = self.makeSet2Dict(set_simple_science)
# art
set_simple_art = self.redis_cache.smembers('62951084550')
dict_simple_art = self.makeSet2Dict(set_simple_art)
else:
sql = "SELECT id, question_type, json_data, upload_id from neworiental_v3.entity_question where upload_id in (62951166961, 62951084550) and json_data !=\'\' "
rows = self.db_fetcher.get_sql_result(sql, 'mysql_logdata')
for row in rows:
qid, question_type, json_data, upload_id = row
upload_id = str(upload_id)
json_data = json_data.replace('\t', '')
if upload_id == '62951166961': # students majored in science
dict_simple_science[qid] = question_type, json_data
elif upload_id == '62951084550':
dict_simple_art[qid] = question_type, json_data
str_content = '%s\t%s\t%s' % (qid, question_type, json_data)
self.redis_cache.sadd(upload_id, str_content)
return dict_simple_science, dict_simple_art
def getTopicSimpleQuestion(self):
dict_topic_question = {}
for qid in self.dict_simple_art:
if qid in self.dict_question_topic:
set_topic = self.dict_question_topic[qid]
for topic in set_topic:
if topic not in dict_topic_question:
dict_topic_question[topic] = set()
dict_topic_question[topic].add(qid)
for topic in dict_topic_question:
set_topic = dict_topic_question[topic]
str_content = '\t'.join([str(x) for x in set_topic])
print '%s\t%s\t%s' % (topic, self.dict_topic[topic], str_content)