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ML
ffm-baseline
Commits
340be36e
Commit
340be36e
authored
Jun 12, 2019
by
张彦钊
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340be36e
# -*- coding: utf-8 -*-
import
pymysql
from
pyspark.conf
import
SparkConf
import
pytispark.pytispark
as
pti
from
pyspark.sql
import
SparkSession
import
datetime
import
pandas
as
pd
import
time
from
pyspark
import
StorageLevel
def
app_list_func
(
x
,
l
):
b
=
str
(
x
)
.
split
(
","
)
e
=
[]
for
i
in
b
:
if
i
in
l
.
keys
():
e
.
append
(
l
[
i
])
else
:
e
.
append
(
0
)
return
e
def
get_list
(
db
,
sql
,
n
):
cursor
=
db
.
cursor
()
cursor
.
execute
(
sql
)
result
=
cursor
.
fetchall
()
v
=
list
(
set
([
i
[
0
]
for
i
in
result
]))
app_list_value
=
[
str
(
i
)
.
split
(
","
)
for
i
in
v
]
app_list_unique
=
[]
for
i
in
app_list_value
:
app_list_unique
.
extend
(
i
)
app_list_unique
=
list
(
set
(
app_list_unique
))
number
=
len
(
app_list_unique
)
app_list_map
=
dict
(
zip
(
app_list_unique
,
list
(
range
(
n
,
number
+
n
))))
db
.
close
()
return
number
,
app_list_map
def
get_map
():
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select app_list from device_app_list"
a
=
time
.
time
()
apps_number
,
app_list_map
=
get_list
(
db
,
sql
,
16
)
print
(
"applist"
)
print
((
time
.
time
()
-
a
)
/
60
)
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select level2_ids from diary_feat"
b
=
time
.
time
()
leve2_number
,
leve2_map
=
get_list
(
db
,
sql
,
16
+
apps_number
)
print
(
"leve2"
)
print
((
time
.
time
()
-
b
)
/
60
)
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select level3_ids from diary_feat"
c
=
time
.
time
()
leve3_number
,
leve3_map
=
get_list
(
db
,
sql
,
16
+
leve2_number
+
apps_number
)
print
((
time
.
time
()
-
c
)
/
60
)
return
apps_number
,
app_list_map
,
leve2_number
,
leve2_map
,
leve3_number
,
leve3_map
def
get_unique
(
db
,
sql
):
cursor
=
db
.
cursor
()
cursor
.
execute
(
sql
)
result
=
cursor
.
fetchall
()
v
=
list
(
set
([
i
[
0
]
for
i
in
result
]))
db
.
close
()
print
(
sql
)
print
(
len
(
v
))
return
v
def
con_sql
(
db
,
sql
):
cursor
=
db
.
cursor
()
cursor
.
execute
(
sql
)
result
=
cursor
.
fetchall
()
df
=
pd
.
DataFrame
(
list
(
result
))
db
.
close
()
return
df
def
get_pre_number
():
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select count(*) from esmm_pre_data"
cursor
=
db
.
cursor
()
cursor
.
execute
(
sql
)
result
=
cursor
.
fetchone
()[
0
]
print
(
"预测集数量:"
)
print
(
result
)
db
.
close
()
def
feature_engineer
():
apps_number
,
app_list_map
,
level2_number
,
leve2_map
,
level3_number
,
leve3_map
=
get_map
()
unique_values
=
[]
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct stat_date from esmm_train_data_dwell"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct ucity_id from esmm_train_data_dwell"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct ccity_name from esmm_train_data_dwell"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct time from cid_time_cut"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct device_type from user_feature"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct manufacturer from user_feature"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct channel from user_feature"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct top from cid_type_top"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct price_min from knowledge"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct treatment_method from knowledge"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct price_max from knowledge"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct treatment_time from knowledge"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct maintain_time from knowledge"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select distinct recover_time from knowledge"
unique_values
.
extend
(
get_unique
(
db
,
sql
))
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
,
db
=
'jerry_test'
)
sql
=
"select max(stat_date) from esmm_train_data_dwell"
validate_date
=
con_sql
(
db
,
sql
)[
0
]
.
values
.
tolist
()[
0
]
print
(
"validate_date:"
+
validate_date
)
temp
=
datetime
.
datetime
.
strptime
(
validate_date
,
"
%
Y-
%
m-
%
d"
)
start
=
(
temp
-
datetime
.
timedelta
(
days
=
3
))
.
strftime
(
"
%
Y-
%
m-
%
d"
)
print
(
start
)
db
=
pymysql
.
connect
(
host
=
'172.16.40.158'
,
port
=
4000
,
user
=
'root'
,
passwd
=
'3SYz54LS9#^9sBvC'
)
sql
=
"select doctor.hospital_id from jerry_test.esmm_train_data_dwell e "
\
"left join eagle.src_zhengxing_api_service service on e.diary_service_id = service.id "
\
"left join eagle.src_zhengxing_api_doctor doctor on service.doctor_id = doctor.id "
\
"where e.stat_date >= '{}'"
.
format
(
start
)
unique_values
.
extend
(
get_unique
(
db
,
sql
))
features
=
[
"ucity_id"
,
"ccity_name"
,
"device_type"
,
"manufacturer"
,
"channel"
,
"top"
,
"time"
,
"stat_date"
,
"hospital_id"
,
"treatment_method"
,
"price_min"
,
"price_max"
,
"treatment_time"
,
"maintain_time"
,
"recover_time"
]
unique_values
.
extend
(
features
)
print
(
"unique_values length"
)
print
(
len
(
unique_values
))
print
(
"特征维度:"
)
print
(
apps_number
+
level2_number
+
level3_number
+
len
(
unique_values
))
temp
=
list
(
range
(
16
+
apps_number
+
level2_number
+
level3_number
,
16
+
apps_number
+
level2_number
+
level3_number
+
len
(
unique_values
)))
value_map
=
dict
(
zip
(
unique_values
,
temp
))
sql
=
"select e.y,e.z,e.stat_date,e.ucity_id,feat.level2_ids,e.ccity_name,u.device_type,u.manufacturer,"
\
"u.channel,c.top,cut.time,dl.app_list,feat.level3_ids,doctor.hospital_id,"
\
"wiki.tag as tag1,question.tag as tag2,search.tag as tag3,budan.tag as tag4,"
\
"ot.tag as tag5,sixin.tag as tag6,cart.tag as tag7,"
\
"k.treatment_method,k.price_min,k.price_max,k.treatment_time,k.maintain_time,k.recover_time "
\
"from jerry_test.esmm_train_data_dwell e left join jerry_test.user_feature u on e.device_id = u.device_id "
\
"left join jerry_test.cid_type_top c on e.device_id = c.device_id "
\
"left join jerry_test.cid_time_cut cut on e.cid_id = cut.cid "
\
"left join jerry_test.device_app_list dl on e.device_id = dl.device_id "
\
"left join jerry_test.diary_feat feat on e.cid_id = feat.diary_id "
\
"left join jerry_test.knowledge k on feat.level2 = k.level2_id "
\
"left join jerry_test.wiki_tag wiki on e.device_id = wiki.device_id "
\
"left join jerry_test.question_tag question on e.device_id = question.device_id "
\
"left join jerry_test.search_tag search on e.device_id = search.device_id "
\
"left join jerry_test.budan_tag budan on e.device_id = budan.device_id "
\
"left join jerry_test.order_tag ot on e.device_id = ot.device_id "
\
"left join jerry_test.sixin_tag sixin on e.device_id = sixin.device_id "
\
"left join jerry_test.cart_tag cart on e.device_id = cart.device_id "
\
"left join eagle.src_zhengxing_api_service service on e.diary_service_id = service.id "
\
"left join eagle.src_zhengxing_api_doctor doctor on service.doctor_id = doctor.id "
\
"where e.stat_date >= '{}'"
.
format
(
start
)
df
=
spark
.
sql
(
sql
)
df
=
df
.
drop_duplicates
([
"ucity_id"
,
"level2_ids"
,
"ccity_name"
,
"device_type"
,
"manufacturer"
,
"channel"
,
"top"
,
"time"
,
"stat_date"
,
"app_list"
,
"hospital_id"
,
"level3_ids"
,
"tag1"
,
"tag2"
,
"tag3"
,
"tag4"
,
"tag5"
,
"tag6"
,
"tag7"
])
df
=
df
.
na
.
fill
(
dict
(
zip
(
features
,
features
)))
rdd
=
df
.
select
(
"stat_date"
,
"y"
,
"z"
,
"app_list"
,
"level2_ids"
,
"level3_ids"
,
"tag1"
,
"tag2"
,
"tag3"
,
"tag4"
,
"tag5"
,
"tag6"
,
"tag7"
,
"ucity_id"
,
"ccity_name"
,
"device_type"
,
"manufacturer"
,
"channel"
,
"top"
,
"time"
,
"hospital_id"
,
"treatment_method"
,
"price_min"
,
"price_max"
,
"treatment_time"
,
"maintain_time"
,
"recover_time"
)
.
rdd
.
repartition
(
200
)
.
map
(
lambda
x
:
(
x
[
0
],
float
(
x
[
1
]),
float
(
x
[
2
]),
app_list_func
(
x
[
3
],
app_list_map
),
app_list_func
(
x
[
4
],
leve2_map
),
app_list_func
(
x
[
5
],
leve3_map
),
app_list_func
(
x
[
6
],
leve2_map
),
app_list_func
(
x
[
7
],
leve2_map
),
app_list_func
(
x
[
8
],
leve2_map
),
app_list_func
(
x
[
9
],
leve2_map
),
app_list_func
(
x
[
10
],
leve2_map
),
app_list_func
(
x
[
11
],
leve2_map
),
app_list_func
(
x
[
12
],
leve2_map
),
[
value_map
[
x
[
0
]],
value_map
[
x
[
13
]],
value_map
[
x
[
14
]],
value_map
[
x
[
15
]],
value_map
[
x
[
16
]],
value_map
[
x
[
17
]],
value_map
[
x
[
18
]],
value_map
[
x
[
19
]],
value_map
[
x
[
20
]],
value_map
[
x
[
21
]],
value_map
[
x
[
22
]],
value_map
[
x
[
23
]],
value_map
[
x
[
24
]],
value_map
[
x
[
25
]],
value_map
[
x
[
26
]]]))
rdd
.
persist
(
storageLevel
=
StorageLevel
.
MEMORY_ONLY_SER
)
# TODO 上线后把下面train fliter 删除,因为最近一天的数据也要作为训练集
train
=
rdd
.
map
(
lambda
x
:
(
x
[
1
],
x
[
2
],
x
[
3
],
x
[
4
],
x
[
5
],
x
[
6
],
x
[
7
],
x
[
8
],
x
[
9
],
x
[
10
],
x
[
11
],
x
[
12
],
x
[
13
]))
f
=
time
.
time
()
spark
.
createDataFrame
(
train
)
.
toDF
(
"y"
,
"z"
,
"app_list"
,
"level2_list"
,
"level3_list"
,
"tag1_list"
,
"tag2_list"
,
"tag3_list"
,
"tag4_list"
,
"tag5_list"
,
"tag6_list"
,
"tag7_list"
,
"ids"
)
\
.
repartition
(
1
)
.
write
.
format
(
"tfrecords"
)
.
save
(
path
=
path
+
"tr/"
,
mode
=
"overwrite"
)
h
=
time
.
time
()
print
(
"train tfrecord done"
)
print
((
h
-
f
)
/
60
)
print
(
"训练集样本总量:"
)
print
(
rdd
.
count
())
get_pre_number
()
test
=
rdd
.
filter
(
lambda
x
:
x
[
0
]
==
validate_date
)
.
map
(
lambda
x
:
(
x
[
1
],
x
[
2
],
x
[
3
],
x
[
4
],
x
[
5
],
x
[
6
],
x
[
7
],
x
[
8
],
x
[
9
],
x
[
10
],
x
[
11
],
x
[
12
],
x
[
13
]))
spark
.
createDataFrame
(
test
)
.
toDF
(
"y"
,
"z"
,
"app_list"
,
"level2_list"
,
"level3_list"
,
"tag1_list"
,
"tag2_list"
,
"tag3_list"
,
"tag4_list"
,
"tag5_list"
,
"tag6_list"
,
"tag7_list"
,
"ids"
)
\
.
repartition
(
1
)
.
write
.
format
(
"tfrecords"
)
.
save
(
path
=
path
+
"va/"
,
mode
=
"overwrite"
)
print
(
"va tfrecord done"
)
rdd
.
unpersist
()
return
validate_date
,
value_map
,
app_list_map
,
leve2_map
,
leve3_map
def
get_predict
(
date
,
value_map
,
app_list_map
,
leve2_map
,
leve3_map
):
sql
=
"select e.y,e.z,e.label,e.ucity_id,feat.level2_ids,e.ccity_name,"
\
"u.device_type,u.manufacturer,u.channel,c.top,e.device_id,e.cid_id,cut.time,"
\
"dl.app_list,e.hospital_id,feat.level3_ids,"
\
"wiki.tag as tag1,question.tag as tag2,search.tag as tag3,budan.tag as tag4,"
\
"ot.tag as tag5,sixin.tag as tag6,cart.tag as tag7,"
\
"k.treatment_method,k.price_min,k.price_max,k.treatment_time,k.maintain_time,k.recover_time "
\
"from jerry_test.esmm_pre_data e "
\
"left join jerry_test.user_feature u on e.device_id = u.device_id "
\
"left join jerry_test.cid_type_top c on e.device_id = c.device_id "
\
"left join jerry_test.cid_time_cut cut on e.cid_id = cut.cid "
\
"left join jerry_test.device_app_list dl on e.device_id = dl.device_id "
\
"left join jerry_test.diary_feat feat on e.cid_id = feat.diary_id "
\
"left join jerry_test.wiki_tag wiki on e.device_id = wiki.device_id "
\
"left join jerry_test.question_tag question on e.device_id = question.device_id "
\
"left join jerry_test.search_tag search on e.device_id = search.device_id "
\
"left join jerry_test.budan_tag budan on e.device_id = budan.device_id "
\
"left join jerry_test.order_tag ot on e.device_id = ot.device_id "
\
"left join jerry_test.sixin_tag sixin on e.device_id = sixin.device_id "
\
"left join jerry_test.cart_tag cart on e.device_id = cart.device_id "
\
"left join jerry_test.knowledge k on feat.level2 = k.level2_id"
features
=
[
"ucity_id"
,
"ccity_name"
,
"device_type"
,
"manufacturer"
,
"channel"
,
"top"
,
"time"
,
"hospital_id"
,
"treatment_method"
,
"price_min"
,
"price_max"
,
"treatment_time"
,
"maintain_time"
,
"recover_time"
]
df
=
spark
.
sql
(
sql
)
df
=
df
.
drop_duplicates
([
"ucity_id"
,
"device_id"
,
"cid_id"
])
df
=
df
.
na
.
fill
(
dict
(
zip
(
features
,
features
)))
f
=
time
.
time
()
rdd
=
df
.
select
(
"label"
,
"y"
,
"z"
,
"ucity_id"
,
"device_id"
,
"cid_id"
,
"app_list"
,
"level2_ids"
,
"level3_ids"
,
"tag1"
,
"tag2"
,
"tag3"
,
"tag4"
,
"tag5"
,
"tag6"
,
"tag7"
,
"ucity_id"
,
"ccity_name"
,
"device_type"
,
"manufacturer"
,
"channel"
,
"top"
,
"time"
,
"hospital_id"
,
"treatment_method"
,
"price_min"
,
"price_max"
,
"treatment_time"
,
"maintain_time"
,
"recover_time"
)
\
.
rdd
.
repartition
(
200
)
.
map
(
lambda
x
:
(
x
[
0
],
float
(
x
[
1
]),
float
(
x
[
2
]),
x
[
3
],
x
[
4
],
x
[
5
],
app_list_func
(
x
[
6
],
app_list_map
),
app_list_func
(
x
[
7
],
leve2_map
),
app_list_func
(
x
[
8
],
leve3_map
),
app_list_func
(
x
[
9
],
leve2_map
),
app_list_func
(
x
[
10
],
leve2_map
),
app_list_func
(
x
[
11
],
leve2_map
),
app_list_func
(
x
[
12
],
leve2_map
),
app_list_func
(
x
[
13
],
leve2_map
),
app_list_func
(
x
[
14
],
leve2_map
),
app_list_func
(
x
[
15
],
leve2_map
),
[
value_map
.
get
(
date
,
1
),
value_map
.
get
(
x
[
16
],
2
),
value_map
.
get
(
x
[
17
],
3
),
value_map
.
get
(
x
[
18
],
4
),
value_map
.
get
(
x
[
19
],
5
),
value_map
.
get
(
x
[
20
],
6
),
value_map
.
get
(
x
[
21
],
7
),
value_map
.
get
(
x
[
22
],
8
),
value_map
.
get
(
x
[
23
],
9
),
value_map
.
get
(
x
[
24
],
10
),
value_map
.
get
(
x
[
25
],
11
),
value_map
.
get
(
x
[
26
],
12
),
value_map
.
get
(
x
[
27
],
13
),
value_map
.
get
(
x
[
28
],
14
),
value_map
.
get
(
x
[
29
],
15
)
]))
rdd
.
persist
(
storageLevel
=
StorageLevel
.
MEMORY_ONLY_SER
)
native_pre
=
spark
.
createDataFrame
(
rdd
.
filter
(
lambda
x
:
x
[
0
]
==
0
)
.
map
(
lambda
x
:(
x
[
3
],
x
[
4
],
x
[
5
])))
\
.
toDF
(
"city"
,
"uid"
,
"cid_id"
)
print
(
"native csv"
)
native_pre
.
coalesce
(
1
)
.
write
.
format
(
'com.databricks.spark.csv'
)
.
save
(
path
+
"native/"
,
header
=
'true'
)
spark
.
createDataFrame
(
rdd
.
filter
(
lambda
x
:
x
[
0
]
==
0
)
.
map
(
lambda
x
:
(
x
[
1
],
x
[
2
],
x
[
6
],
x
[
7
],
x
[
8
],
x
[
9
],
x
[
10
],
x
[
11
],
x
[
12
],
x
[
13
],
x
[
14
],
x
[
15
],
x
[
16
])))
\
.
toDF
(
"y"
,
"z"
,
"app_list"
,
"level2_list"
,
"level3_list"
,
"tag1_list"
,
"tag2_list"
,
"tag3_list"
,
"tag4_list"
,
"tag5_list"
,
"tag6_list"
,
"tag7_list"
,
"ids"
)
.
repartition
(
1
)
.
write
.
format
(
"tfrecords"
)
\
.
save
(
path
=
path
+
"native/"
,
mode
=
"overwrite"
)
print
(
"native tfrecord done"
)
h
=
time
.
time
()
print
((
h
-
f
)
/
60
)
nearby_pre
=
spark
.
createDataFrame
(
rdd
.
filter
(
lambda
x
:
x
[
0
]
==
1
)
.
map
(
lambda
x
:
(
x
[
3
],
x
[
4
],
x
[
5
])))
\
.
toDF
(
"city"
,
"uid"
,
"cid_id"
)
print
(
"nearby csv"
)
nearby_pre
.
coalesce
(
1
)
.
write
.
format
(
'com.databricks.spark.csv'
)
.
save
(
path
+
"nearby/"
,
header
=
'true'
)
spark
.
createDataFrame
(
rdd
.
filter
(
lambda
x
:
x
[
0
]
==
1
)
.
map
(
lambda
x
:
(
x
[
1
],
x
[
2
],
x
[
6
],
x
[
7
],
x
[
8
],
x
[
9
],
x
[
10
],
x
[
11
],
x
[
12
],
x
[
13
],
x
[
14
],
x
[
15
],
x
[
16
])))
\
.
toDF
(
"y"
,
"z"
,
"app_list"
,
"level2_list"
,
"level3_list"
,
"tag1_list"
,
"tag2_list"
,
"tag3_list"
,
"tag4_list"
,
"tag5_list"
,
"tag6_list"
,
"tag7_list"
,
"ids"
)
.
repartition
(
1
)
.
write
.
format
(
"tfrecords"
)
\
.
save
(
path
=
path
+
"nearby/"
,
mode
=
"overwrite"
)
print
(
"nearby tfrecord done"
)
if
__name__
==
'__main__'
:
sparkConf
=
SparkConf
()
.
set
(
"spark.hive.mapred.supports.subdirectories"
,
"true"
)
\
.
set
(
"spark.hadoop.mapreduce.input.fileinputformat.input.dir.recursive"
,
"true"
)
\
.
set
(
"spark.tispark.plan.allow_index_double_read"
,
"false"
)
\
.
set
(
"spark.tispark.plan.allow_index_read"
,
"true"
)
\
.
set
(
"spark.sql.extensions"
,
"org.apache.spark.sql.TiExtensions"
)
\
.
set
(
"spark.tispark.pd.addresses"
,
"172.16.40.158:2379"
)
.
set
(
"spark.io.compression.codec"
,
"lzf"
)
\
.
set
(
"spark.driver.maxResultSize"
,
"8g"
)
.
set
(
"spark.sql.avro.compression.codec"
,
"snappy"
)
spark
=
SparkSession
.
builder
.
config
(
conf
=
sparkConf
)
.
enableHiveSupport
()
.
getOrCreate
()
ti
=
pti
.
TiContext
(
spark
)
ti
.
tidbMapDatabase
(
"jerry_test"
)
ti
.
tidbMapDatabase
(
"eagle"
)
spark
.
sparkContext
.
setLogLevel
(
"WARN"
)
path
=
"hdfs:///strategy/esmm/"
local_path
=
"/home/gmuser/esmm/"
validate_date
,
value_map
,
app_list_map
,
leve2_map
,
leve3_map
=
feature_engineer
()
get_predict
(
validate_date
,
value_map
,
app_list_map
,
leve2_map
,
leve3_map
)
spark
.
stop
()
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