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Pyspark_结构化流4

news 2025/7/17 21:51:49

Pyspark

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今天继续和大家分享一下Pyspark_结构化流4
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文章目录

Pyspark
前言
一、数据模拟器代码
二、需求说明和代码实现
总结

前言

接上次继续Pyspark_结构化流，今天主要是一个结构化流结合kafka的一个小案例。

一、数据模拟器代码

1- 创建一个topic, 放置后续物联网数据: search-log-topic
./kafka-topics.sh --create --zookeeper node1:2181 --topic search-log-topic --partitions 3 --replication-factor 2

import json
import random
import time
import os
from kafka import KafkaProducer# 锁定远端操作环境, 避免存在多个版本环境的问题
os.environ['SPARK_HOME'] = '/export/server/spark'
os.environ["PYSPARK_PYTHON"] = "/root/anaconda3/bin/python"
os.environ["PYSPARK_DRIVER_PYTHON"] = "/root/anaconda3/bin/python"# 快捷键:  main 回车
if __name__ == '__main__':print("模拟物联网数据")# 1- 构建一个kafka的生产者:producer = KafkaProducer(bootstrap_servers=['node1:9092', 'node2:9092', 'node3:9092'],acks='all',value_serializer=lambda m: json.dumps(m).encode("utf-8"))# 2- 物联网设备类型deviceTypes = ["洗衣机", "油烟机", "空调", "窗帘", "灯", "窗户", "煤气报警器", "水表", "燃气表"]while True:index = random.choice(range(0, len(deviceTypes)))deviceID = f'device_{index}_{random.randrange(1, 20)}'deviceType = deviceTypes[index]deviceSignal = random.choice(range(10, 100))# 组装数据集print({'deviceID': deviceID, 'deviceType': deviceType, 'deviceSignal': deviceSignal,'time': time.strftime('%s')})# 发送数据producer.send(topic='search-log-topic',value={'deviceID': deviceID, 'deviceType': deviceType, 'deviceSignal': deviceSignal,'time': time.strftime('%s')})# 间隔时间 5s内随机time.sleep(random.choice(range(1, 5)))

生成的kafka数据
{‘deviceID’: ‘device_0_14’, ‘deviceType’: ‘洗衣机’, ‘deviceSignal’: 18, ‘time’: ‘1680157073’}
{‘deviceID’: ‘device_2_8’, ‘deviceType’: ‘空调’, ‘deviceSignal’: 30, ‘time’: ‘1680157074’}
{‘deviceID’: ‘device_0_17’, ‘deviceType’: ‘洗衣机’, ‘deviceSignal’: 84, ‘time’: ‘1680157076’}
{‘deviceID’: ‘device_2_15’, ‘deviceType’: ‘空调’, ‘deviceSignal’: 99, ‘time’: ‘1680157078’}
{‘deviceID’: ‘device_1_17’, ‘deviceType’: ‘油烟机’, ‘deviceSignal’: 50, ‘time’: ‘1680157081’}

二、需求说明和代码实现

求: 各种信号强度>30的设备的各个类型的数量和平均信号强度,先过滤再聚合

from pyspark.sql import SparkSession
import pyspark.sql.functions as F
import os# 锁定远端环境, 确保环境统一
os.environ['SPARK_HOME'] = '/export/server/spark'
os.environ['PYSPARK_PYTHON'] = '/root/anaconda3/bin/python3'
os.environ['PYSPARK_DRIVER_PYTHON'] = '/root/anaconda3/bin/python3'if __name__ == '__main__':print("综合案例: 物联网案例实现")# 1- 创建SparkSession对象spark = SparkSession.builder \.appName('file_source') \.master('local[1]') \.config('spark.sql.shuffle.partitions', 4) \.getOrCreate()# 2- 从Kafka中读取消息数据df = spark.readStream \.format('kafka') \.option('kafka.bootstrap.servers', 'node1:9092,node2:9092,node3:9092') \.option('subscribe', 'search-log-topic') \.option('startingOffsets', 'earliest') \.load()# 3- 处理数据# 求: 各种信号强度>30的设备的各个类型的数量和平均信号强度,先过滤再聚合# 数据: {'deviceID': 'device_4_4', 'deviceType': '灯', 'deviceSignal': 20, 'time': '1677243108'}df = df.selectExpr('CAST(value AS STRING)')# 思考 如何做呢?# 需要将这个Json字符串中各个字段都获取出来, 形成一个多列的数据# 专业名称: JSON拉平# 涉及函数: get_json_object()    json_tuple()# df.createTempView('t1')# SQL# df = spark.sql("""#     select#         get_json_object(value,'$.deviceID')  as deviceID,#         get_json_object(value,'$.deviceType') as deviceType,#         get_json_object(value,'$.deviceSignal') as deviceSignal,#         get_json_object(value,'$.time') as time#     from  t1# """)# df = spark.sql("""#     select#         json_tuple(value,'deviceID','deviceType','deviceSignal','time') as (deviceID,deviceType,deviceSignal,time)#     from  t1# """)# DSL# df = df.select(#     F.get_json_object('value', '$.deviceID').alias('deviceID'),#     F.get_json_object('value','$.deviceType').alias('deviceType'),#     F.get_json_object('value','$.deviceSignal').alias('deviceSignal'),#     F.get_json_object('value','$.time').alias('time')# )df = df.select(F.json_tuple('value', 'deviceID', 'deviceType', 'deviceSignal', 'time').alias('deviceID', 'deviceType','deviceSignal', 'time'))# 求: 各种信号强度>30的设备的各个类型的数量和平均信号强度,先过滤再聚合df = df.where(df['deviceSignal'] > 30).groupBy('deviceType').agg(F.count('deviceID').alias('device_cnt'),F.round(F.avg('deviceSignal'), 2).alias('deviceSignal_avg'))# 4- 打印结果df.writeStream.format('console').outputMode('complete').start().awaitTermination()