前言:本文作为本人学习sparkSql离线数据抽取,离线数据处理的学习整理记录,文中参考博客均附上原文链接。
一、Hive环境准备 1、配置文件准备:/opt/hive/conf/hive-site.xml:(2021/12/31修改,添加了&useSSL=false&useUnicode=true&characterEncoding=utf8支持中文编码)
<configuration>
<property>
<name>javax.jdo.option.ConnectionURLname>
<value>jdbc:mysql://localhost:3306/hive_demo?createDatabaseIfNotExist=true&useSSL=false&useUnicode=true&characterEncoding=utf8value>
<description>hive的元数据库 description>
property>
<property>
<name>javax.jdo.option.ConnectionDriverNamename>
<value>com.mysql.jdbc.Drivervalue>
<description>mysql的驱动jar包 description>
property>
<property>
<name>javax.jdo.option.ConnectionUserNamename>
<value>rootvalue>
<description>设定数据库的用户名 description>
property>
<property>
<name>javax.jdo.option.ConnectionPasswordname>
<value>xxxvalue>
<description>设定数据库的密码description>
property>
<property>
<name>hive.exec.max.dynamic.partitionsname>
<value>100000value>
<description>在所有执行MR的节点上,最大一共可以创建多少个动态分区description>
property>
<property>
<name>hive.exec.max.dynamic.partitions.pernodename>
<value>100000value>
<description>在所有执行MR的节点上,最大可以创建多少个动态分区description>
property>
configuration>
若要在idea环境下运行要把
hdfs-site.xml
core-site.xml
hive-site.xml
放到resources文件夹中
否则hive.exec.max.dynamic.partitions.pernode,hive.exec.max.dynamic.partitions
配置不生效
2、hosts设置若在不同网络环境下
需设置本地hosts
设置的内容为集群主机名
Ubuntu的hosts文件在 /etc 下
参考资料:(10条消息) java.lang.IllegalArgumentException: java.net.UnknownHostException: xxx_小健的博客-CSDN博客
3、远程连接服务开启hive --service metastore
参考资料:(13条消息) hive的几种启动方式_lbl的博客-CSDN博客_hive启动
4、其他mysql服务启动
service mysqld start
防火墙关闭
systemctl stop firewalld
<project xmlns="http://maven.apache.org/POM/4.0.0"
xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 http://maven.apache.org/xsd/maven-4.0.0.xsd">
<parent>
<artifactId>sparkDome1artifactId>
<groupId>org.examplegroupId>
<version>1.0-SNAPSHOTversion>
parent>
<modelVersion>4.0.0modelVersion>
<artifactId>HiveAndMysqlartifactId>
<properties>
<maven.compiler.source>8maven.compiler.source>
<maven.compiler.target>8maven.compiler.target>
<hadoop.version>2.7.7hadoop.version>
<spark.version>2.1.1spark.version>
<scala.version>2.11scala.version>
properties>
<dependencies>
<dependency>
<groupId>org.apache.hadoopgroupId>
<artifactId>hadoop-clientartifactId>
<version>${hadoop.version}version>
dependency>
<dependency>
<groupId>org.apache.hadoopgroupId>
<artifactId>hadoop-commonartifactId>
<version>${hadoop.version}version>
dependency>
<dependency>
<groupId>org.apache.hadoopgroupId>
<artifactId>hadoop-hdfsartifactId>
<version>${hadoop.version}version>
dependency>
<dependency>
<groupId>org.scala-langgroupId>
<artifactId>scala-libraryartifactId>
<version>2.11.0version>
dependency>
<dependency>
<groupId>org.apache.sparkgroupId>
<artifactId>spark-core_${scala.version}artifactId>
<version>${spark.version}version>
dependency>
<dependency>
<groupId>org.apache.sparkgroupId>
<artifactId>spark-sql_${scala.version}artifactId>
<version>${spark.version}version>
dependency>
<dependency>
<groupId>org.apache.sparkgroupId>
<artifactId>spark-streaming_${scala.version}artifactId>
<version>${spark.version}version>
dependency>
<dependency>
<groupId>org.apache.sparkgroupId>
<artifactId>spark-mllib_${scala.version}artifactId>
<version>${spark.version}version>
dependency>
<dependency>
<groupId>org.apache.sparkgroupId>
<artifactId>spark-hive_${scala.version}artifactId>
<version>${spark.version}version>
dependency>
<dependency>
<groupId>mysqlgroupId>
<artifactId>mysql-connector-javaartifactId>
<version>5.1.48version>
dependency>
dependencies>
<build>
<plugins>
<plugin>
<groupId>org.scala-toolsgroupId>
<artifactId>maven-scala-pluginartifactId>
<version>2.15.2version>
<executions>
<execution>
<id>scala-compileid>
<goals>
<goal>compilegoal>
goals>
<configuration>
<includes>
<include>**/*.scalainclude>
includes>
configuration>
execution>
<execution>
<id>scala-test-compileid>
<goals>
<goal>testCompilegoal>
goals>
execution>
executions>
plugin>
plugins>
build>
project>
window下运行需要准备Hadoop环境
在代码编写中指定hadoop.home.dir
System.setProperty("hadoop.home.dir","........")
Scala插件依赖需先下载好
注意环境与集群对应,本文档的环境为Scala-11
三、代码编写 1、全量抽取import org.apache.spark.sql.SparkSession
/**
* mysql->hive 全量抽取
*/
object ShopTest {
def main(args: Array[String]): Unit = {
//设置用户名,防止因为权限不足无法创建文件
System.setProperty("HADOOP_USER_NAME", "root")
//获取实例对象
val spark = SparkSession.builder()
.appName("ShopTest")
.master("local[*]")
.config("spark.sql.warehouse.dir", "hdfs://xx.xxx.x.x:8020/user/hive/warehouse")
.config("hive.metastore.uris", "thrift://xx.xxx.x.x:9083")
.enableHiveSupport()
.getOrCreate()
//jdbc连接配置
val mysqlMap = Map(
"url" -> "jdbc:mysql://xx.xxx.x.x:3306/clown_db?useSSL=false",
"user" -> "root",
"password" -> "xxx",
"driver" -> "com.mysql.jdbc.Driver"
)
//使用jdbc抽取mysql表数据
val inputTable = spark.read.format("jdbc")
.options(mysqlMap)
.option("dbtable", "EcData_tb_1")
.load()
// inputTable.show()
//将mysql表数据创建为临时表
inputTable.createOrReplaceTempView("inputTable")
//hive动态分区开启
spark.sqlContext.sql("set hive.exec.dynamic.partition = true")
//hive分区模式设置,默认为strict严格模式,若设置分区必须要有一个静态分区
//需要设置为nonstrict模式,可以都是动态分区
spark.sqlContext.sql("set hive.exec.dynamic.partition.mode = nonstrict")
//hive分区数设置,目前版本已无法在程序中设置,参考上文Hive环境准备-配置文件准备
spark.sqlContext.sql("set hive.exec.max.dynamic.partitions.pernode = 10000")
spark.sqlContext.sql("set hive.exec.max.dynamic.partitions = 10000")
// mysql表结构,通过desc table tb_name;命令可获取
/* +-------------+---------+------+-----+---------+-------+
| Field | Type | Null | Key | Default | Extra |
+-------------+---------+------+-----+---------+-------+
| InvoiceNo | text | YES | | NULL | |
| StockCode | text | YES | | NULL | |
| Description | text | YES | | NULL | |
| Quantity | int(11) | YES | | NULL | |
| InvoiceDate | text | YES | | NULL | |
| UnitPrice | double | YES | | NULL | |
| CustomerID | int(11) | YES | | NULL | |
| Country | text | YES | | NULL | |
+-------------+---------+------+-----+---------+-------+*/
//于hive数据库,ods层中创建表
spark.sqlContext.sql(
"""
|create table if not exists clown_test_db.ShopTest_ods_tb_1
|(
| InvoiceNo string ,
| StockCode string ,
| Description string ,
| Quantity int ,
| InvoiceDate string ,
| UnitPrice double ,
| CustomerID int ,
| Country string
|)
|partitioned by (country_pid string,customer_pid int)
|row format delimited
|fields terminated by '\t' //本数据中字段值存在','不能用','作为分隔符
|lines terminated by '\n'
|stored as textfile
|""".stripMargin)
//使用sql-insert into 语句将mysql数据全部导入hive表中
spark.sqlContext.sql(
"""
|insert into table clown_test_db.ShopTest_ods_tb_1 partition(country_pid,customer_pid)
|select *,Country,CustomerID from inputTable
|""".stripMargin)
}
}
import java.text.SimpleDateFormat
import org.apache.spark.sql.{SaveMode, SparkSession}
/**
* hive_ods -> hive_dwd 增量抽取
*/
object ShopTest2 {
def main(args: Array[String]): Unit = {
System.setProperty("HADOOP_USER_NAME","root")
val spark = SparkSession.builder()
.appName("ShopTest2")
.master("local[*]")
.config("spark.sql.warehouse.dir","hdfs://xx.xxx.x.x:8020/user/hive/warehouse")
.config("hive.metastore.uris","thrift://xx.xxx.x.x:9083")
.enableHiveSupport()
.getOrCreate()
/* +-------------+---------+------+-----+---------+-------+
| Field | Type | Null | Key | Default | Extra |
+-------------+---------+------+-----+---------+-------+
| InvoiceNo | text | YES | | NULL | |
| StockCode | text | YES | | NULL | |
| Description | text | YES | | NULL | |
| Quantity | int(11) | YES | | NULL | |
| InvoiceDate | text | YES | | NULL | |
| UnitPrice | double | YES | | NULL | |
| CustomerID | int(11) | YES | | NULL | |
| Country | text | YES | | NULL | |
+-------------+---------+------+-----+---------+-------+*/
//隐式转换,sql方法导入
import spark.implicits._
import org.apache.spark.sql.functions._
spark.sqlContext.sql("set hive.exec.dynamic.partition = true")
spark.sqlContext.sql("set hive.exec.dynamic.partition.mode = nonstrict")
//直接通过sql语句获取到hive ods层中的表数据
val inputData = spark.sqlContext.sql("select * from clown_test_db.ShopTest_ods_tb_1")
//设置时间条件
val timeStr = "2011/01/01 00:00"
val timeTemp = new SimpleDateFormat("yyyy/MM/dd HH:mm").parse(timeStr).getTime//单位为ms
println(timeTemp)
//未转换前的数据格式为:12/8/2010 9:53
val timeFormat = inputData
.withColumn("InvoiceDate",unix_timestamp($"InvoiceDate","MM/dd/yyyy HH:mm"))//时间戳获取,单位为s
.where(s"InvoiceDate>$timeTemp/1000")//增量条件判断
.withColumn("InvoiceDate",from_unixtime($"InvoiceDate","yyyy/MM/dd HH:mm"))//时间格式转换
.where("Country='United Kingdom' or Country = 'Finland'")//筛选出国家名为United Kingdom 或 Finland的数据
//由于该ods层表与目标dwd层表结构相同,直接用like语句创建结构相同的dwd表
spark.sqlContext.sql(
"""
|create table if not exists clown_dwd_db.shoptest_dwd_tb_1
|like clown_test_db.ShopTest_ods_tb_1
|""".stripMargin)
//使用sparkSql算子将数据由ods表数据增量抽取到dwd表中
timeFormat.write.format("hive")
.mode(SaveMode.Append)
.insertInto("clown_dwd_db.shoptest_dwd_tb_1")
}
}
import org.apache.spark.sql.{SaveMode, SparkSession}
/**
* hive_dwd->hive_dwd 缺失值剔除与填充
*/
object ShopTest3 {
/*+-------------+---------+------+-----+---------+-------+
| Field | Type | Null | Key | Default | Extra |
+-------------+---------+------+-----+---------+-------+
| InvoiceNo | text | YES | | NULL | |
| StockCode | text | YES | | NULL | |
| Description | text | YES | | NULL | |
| Quantity | int(11) | YES | | NULL | |
| InvoiceDate | text | YES | | NULL | |
| UnitPrice | double | YES | | NULL | |
| CustomerID | int(11) | YES | | NULL | |
| Country | text | YES | | NULL | |
+-------------+---------+------+-----+---------+-------+*/
def main(args: Array[String]): Unit = {
System.setProperty("HADOOP_USER_NAME","root")
val spark = SparkSession.builder()
.appName("ShopTest3")
.master("local[*]")
.config("spark.sql.warehouse.dir","hdfs://xx.xxx.x.x:8020/user/hive/warehouse")
.config("hive.metastore.uris","thrift://xx.xxx.x.x:9083")
.enableHiveSupport()
.getOrCreate()
import spark.implicits._
import org.apache.spark.sql.functions._
spark.sqlContext.sql("set hive.exec.dynamic.partition = true")
spark.sqlContext.sql("set hive.exec.dynamic.partition.mode = nonstrict")
val data = spark.sqlContext.sql("select * from clown_dwd_db.shoptest_dwd_tb_1")
spark.sqlContext.sql(
"""
|create table if not exists clown_dwd_db.shopTest_dwd_tb_3
|(
| InvoiceNo string ,
| StockCode string ,
| Description string ,
| Quantity int ,
| InvoiceDate string ,
| UnitPrice double ,
| CustomerID int ,
| Country string
|)
|partitioned by (country_pid string)
|row format delimited
|fields terminated by '\t'
|lines terminated by '\n'
|stored as textfile
|""".stripMargin)
//使用na.fill对缺失值进行填充
//使用na.drop对缺失值进行剔除
data.na.fill(
Map(
"Country"->"Country_Null",
"CustomerID"->0
)
)
.na.drop(
Seq("UnitPrice","Quantity")
) .selectExpr("InvoiceNo","StockCode","Description","Quantity","InvoiceDate","UnitPrice","CustomerID","Country","Country")//由于数据中存在分区表字段,且该字段关联数据已改变,需要重新进行赋值
.limit(10000)
.write
.format("hive")
.mode(SaveMode.Append)
.insertInto("clown_dwd_db.shopTest_dwd_tb_3")
}
}
import org.apache.spark.sql.SparkSession
/**
* sparkSql算子实现指标计算
*/
object ShopTest4 {
/* +-------------+---------+------+-----+---------+-------+
| Field | Type | Null | Key | Default | Extra |
+-------------+---------+------+-----+---------+-------+
| InvoiceNo | text | YES | | NULL | |
| StockCode | text | YES | | NULL | |
| Description | text | YES | | NULL | |
| Quantity | int(11) | YES | | NULL | |
| InvoiceDate | text | YES | | NULL | |
| UnitPrice | double | YES | | NULL | |
| CustomerID | int(11) | YES | | NULL | |
| Country | text | YES | | NULL | |
+-------------+---------+------+-----+---------+-------+*/
def main(args: Array[String]): Unit = {
System.setProperty("HADOOP_USER_NAME", "root")
val spark = SparkSession.builder()
.appName("ShopTest4")
.master("local[*]")
.config("spark.sql.warehouse.dir", "hdfs://xx.xxx.x.x:8020/user/hive/warehouse")
.config("hive.metastore.uris", "thrift://xx.xxx.x.x:9083")
.enableHiveSupport()
.getOrCreate()
import spark.implicits._
import org.apache.spark.sql.functions._
spark.sqlContext.sql("set hive.exec.dynamic.partition = true")
spark.sqlContext.sql("set hive.exec.dynamic.partition.mode = nonstrict")
val data = spark.sqlContext.sql("select * from clown_dwd_db.shopTest_dwd_tb_3")
/**
* 统计每个国家的客户数,输出结果。
* 排序后输出客户最多的10个国家
*/
data.dropDuplicates("CustomerID","Country")//去重
.withColumn("x",lit(1))//添加一列数据都为1
.groupBy("Country")//聚合国家字段
.sum("x")//对1数据字段进行累加
.show(20)
/**
* 统计各个国家的总销售额分布情况
*/
data.withColumn("x", $"Quantity" * $"UnitPrice")//添加销售额字段,值为数量*单价
.groupBy("Country")//聚合国家字段
.sum("x")//计算总销售额
.withColumn("sum(x)", round($"sum(x)", 2))//对结果字段进行四舍五入到两位,但round会对最后一位0省略,最好使用其他函数
/*若题目要求输出格式可进行rdd转换
.rdd
.map(x=>x.mkString(","))
.foreach(println(_))
*/
/**
* 统计每种商品的销量,输出结果
* 排序后输出销量最高的10种商品
*/
data.groupBy("StockCode")//聚合商品编码字段
.sum("Quantity")//计算销量
.coalesce(1)//将spark分区设置为1,防止后面排序混乱
.orderBy(desc("sum(Quantity)"))//由大到小排序
.show(10)
/**
* 统计月销售额随时间的变化趋势
* [月份,销售额]
*/
data.withColumn("InvoiceDate",substring_index($"InvoiceDate","/",2))//由于数据在增量抽取阶段已进行时间格式转换,可直接进行切割得出 年份/月份 的格式,substring_index与split不同
.withColumn("x",$"Quantity"*$"UnitPrice")//计算销售额
.groupBy("InvoiceDate")//对月份进行聚合
.sum("x")//计算总销售额
.coalesce(1)//设置spark分区为1
.orderBy(desc("InvoiceDate"))//由大到小排序
.withColumn("sum(x)",round($"sum(x)",2))//四舍五入到2位
.show(100)
/**
* 统计商品描述中,排名前300(Top300)的热门关键词
*/
data.select(col("Description"))//商品将描述字段单独查询
.flatMap(x=>x.toString().split("\W"))//进行flatMap 切割后展平,切割\W为正则匹配模式,匹配所有符号
.withColumn("x",lit(1))//增加1的数据列
.groupBy("value")//展平后字段名为value,进行聚合
.sum("x")//累加1数据
.where("value != '' ")//筛除空白数据
.coalesce(1)//设置spark分区为1
.orderBy(desc("sum(x)"))//由大到小排序
.show(300)//展示300条
}
}
import org.apache.spark.sql.SparkSession
/**
* sql语句实现指标计算
*/
object ShopTest5 {
/* +-------------+---------+------+-----+---------+-------+
| Field | Type | Null | Key | Default | Extra |
+-------------+---------+------+-----+---------+-------+
| InvoiceNo | text | YES | | NULL | |
| StockCode | text | YES | | NULL | |
| Description | text | YES | | NULL | |
| Quantity | int(11) | YES | | NULL | |
| InvoiceDate | text | YES | | NULL | |
| UnitPrice | double | YES | | NULL | |
| CustomerID | int(11) | YES | | NULL | |
| Country | text | YES | | NULL | |
+-------------+---------+------+-----+---------+-------+*/
def main(args: Array[String]): Unit = {
System.setProperty("HADOOP_USER_NAME", "root")
val spark = SparkSession.builder()
.appName("ShopTest5")
.master("local[*]")
.config("spark.sql.warehouse.dir", "hdfs://xx.xxx.x.x:8020/user/hive/warehouse")
.config("hive.metastore.uris", "thrift://xx.xxx.x.x:9083")
.enableHiveSupport()
.getOrCreate()
import spark.implicits._
import org.apache.spark.sql.functions._
spark.sqlContext.sql("set hive.exec.dynamic.partition = true")
spark.sqlContext.sql("set hive.exec.dynamic.partition.mode = nonstrict")
val data = spark.sqlContext.sql("select * from clown_dwd_db.shopTest_dwd_tb_3")
data.createOrReplaceTempView("dataTable")
/**
* 统计每个国家的客户数,输出结果。
* 排序后输出客户最多的10个国家
*/
//对去重后的Country,CustomerID进行聚合统计即可得出各个国家的客户数
spark.sqlContext.sql(
"""
|select Country,count(distinct Country,CustomerID) from dataTable group by Country
|""".stripMargin)
.show()
/**
* 统计各个国家的总销售额分布情况
*/
spark.sqlContext.sql(
"""
|select Country ,round(sum(Quantity*UnitPrice),2)
|from dataTable
|group by Country
|""".stripMargin)
.show()
/**
* 统计每种商品的销量,输出结果
* 排序后输出销量最高的10种商品
*/
spark.sqlContext.sql(
"""
|select StockCode,round(sum(Quantity*UnitPrice),2) as xl
|from dataTable
|group by StockCode
|order by xl desc
|""".stripMargin)
.show(10)
/**
* 统计月销售额随时间的变化趋势
* [月份,销售额]
*/
//group by执行优先度可能高于 as 重命名,因此as后的名字无法用于group by 聚合
spark.sqlContext.sql(
"""
|select substring_index(InvoiceDate,"/",2) as time,round(sum(Quantity*UnitPrice),2) as sum
|from dataTable
|group by substring_index(InvoiceDate,"/",2)
|order by substring_index(InvoiceDate,"/",2)
|""".stripMargin)
.show()
/**
* 统计商品描述中,排名前300(Top300)的热门关键词
*/
//目前认为该题用sql解法没有必要
//- -
}
}
参考资料:(15条消息) HIve学习:Hive分区修改_u011047968的专栏-CSDN博客_hive修改分区
hive表新增分区:[]内的不必要
alter table tb_name add partition (pid1 = ‘’,pid2 = ) [location ‘xxx’]
多个分区
alter table tb_name add partition (pid1 = ‘’,pid2 = ) partition (pid1 = ‘’,pid2 = ) [location ‘xxx’]
hive表修改分区:
alter table tb_name partition(pid1='') rename to partition(pid1='');/*修改分区名*/
alter table tb_name partition(pid1='') set location 'hdfs://master:8020/....';/*修改分区路径,注意使用绝对路径*/
alter table tb_name partition column (pid1 string);/*修改分区字段数据类型*/
hive表删除分区:
alter table tb_name drop partition (pid1 = ‘’,pid2 = )[ partition (pid1 = ‘’,pid2 = )…]
hive分区值查询:
show partitions tb_name;
命令:
spark-submit --class ShopTest4 --master spark://xx.xxx.x.x:7077 --executor-memory 512m --total-executor-cores 1 untitled-1.0-SNAPSHOT.jar
若使用了jdbc连接,需要指明驱动jar包 mysql-connector-java-5.1.48.jar
spark-submit --jars mysql-connector-java-5.1.48.jar --class ShopTest --master spark://xx.xxx.x.x:7077 --executor-memory 512m --total-executor-cores 1 untitled-1.0-SNAPSHOT.jar
或者将mysql驱动放至 $‘spark_home’/jars 目录下
3、时间格式时间模式字符串用来指定时间格式。在此模式中,所有的 ASCII 字母被保留为模式字母,定义如下:
| 字母 | 描述 | 示例 |
|---|---|---|
| G | 纪元标记 | AD |
| y | 四位年份 | 2001 |
| M | 月份 | July or 07 |
| d | 一个月的日期 | 10 |
| h | A.M./P.M. (1~12)格式小时 | 12 |
| H | 一天中的小时 (0~23) | 22 |
| m | 分钟数 | 30 |
| s | 秒数 | 55 |
| S | 毫秒数 | 234 |
| E | 星期几 | Tuesday |
| D | 一年中的日子 | 360 |
| F | 一个月中第几周的周几 | 2 (second Wed. in July) |
| w | 一年中第几周 | 40 |
| W | 一个月中第几周 | 1 |
| a | A.M./P.M. 标记 | PM |
| k | 一天中的小时(1~24) | 24 |
| K | A.M./P.M. (0~11)格式小时 | 10 |
| z | 时区 | Eastern Standard Time |
| ’ | 文字定界符 | Delimiter |
| " | 单引号 | ` |
Scala 的正则表达式继承了 Java 的语法规则,Java 则大部分使用了 Perl 语言的规则。
下表我们给出了常用的一些正则表达式规则:(注意:\需要转义,算子中写为\,sql语句中写为\\\)
| 表达式 | 匹配规则 |
|---|---|
| ^ | 匹配输入字符串开始的位置。 |
| $ | 匹配输入字符串结尾的位置。 |
| . | 匹配除"\r\n"之外的任何单个字符。 |
| […] | 字符集。匹配包含的任一字符。例如,"[abc]“匹配"plain"中的"a”。 |
| [^…] | 反向字符集。匹配未包含的任何字符。例如,"[^abc]“匹配"plain"中"p”,“l”,“i”,“n”。 |
| \A | 匹配输入字符串开始的位置(无多行支持) |
| \z | 字符串结尾(类似$,但不受处理多行选项的影响) |
| \Z | 字符串结尾或行尾(不受处理多行选项的影响) |
| re* | 重复零次或更多次 |
| re+ | 重复一次或更多次 |
| re? | 重复零次或一次 |
| re{ n} | 重复n次 |
| re{ n,} | |
| re{ n, m} | 重复n到m次 |
| a|b | 匹配 a 或者 b |
| (re) | 匹配 re,并捕获文本到自动命名的组里 |
| (?: re) | 匹配 re,不捕获匹配的文本,也不给此分组分配组号 |
| (?> re) | 贪婪子表达式 |
| \w | 匹配字母或数字或下划线或汉字 |
| \W | 匹配任意不是字母,数字,下划线,汉字的字符 |
| \s | 匹配任意的空白符,相等于 [\t\n\r\f] |
| \S | 匹配任意不是空白符的字符 |
| \d | 匹配数字,类似 [0-9] |
| \D | 匹配任意非数字的字符 |
| \G | 当前搜索的开头 |
| \n | 换行符 |
| \b | 通常是单词分界位置,但如果在字符类里使用代表退格 |
| \B | 匹配不是单词开头或结束的位置 |
| \t | 制表符 |
| \Q | 开始引号:\Q(a+b)*3\E 可匹配文本 “(a+b)*3”。 |
| \E | 结束引号:\Q(a+b)*3\E 可匹配文本 “(a+b)*3”。 |
正则表达式实例
| 实例 | 描述 |
|---|---|
| . | 匹配除"\r\n"之外的任何单个字符。 |
| [Rr]uby | 匹配 “Ruby” 或 “ruby” |
| rub[ye] | 匹配 “ruby” 或 “rube” |
| [aeiou] | 匹配小写字母 :aeiou |
| [0-9] | 匹配任何数字,类似 [0123456789] |
| [a-z] | 匹配任何 ASCII 小写字母 |
| [A-Z] | 匹配任何 ASCII 大写字母 |
| [a-zA-Z0-9] | 匹配数字,大小写字母 |
| [^aeiou] | 匹配除了 aeiou 其他字符 |
| [^0-9] | 匹配除了数字的其他字符 |
| \d | 匹配数字,类似: [0-9] |
| \D | 匹配非数字,类似: [^0-9] |
| \s | 匹配空格,类似: [ \t\r\n\f] |
| \S | 匹配非空格,类似: [^ \t\r\n\f] |
| \w | 匹配字母,数字,下划线,类似: [A-Za-z0-9_] |
| \W | 匹配非字母,数字,下划线,类似: [^A-Za-z0-9_] |
| ruby? | 匹配 “rub” 或 “ruby”: y 是可选的 |
| ruby* | 匹配 “rub” 加上 0 个或多个的 y。 |
| ruby+ | 匹配 “rub” 加上 1 个或多个的 y。 |
| \d{3} | 刚好匹配 3 个数字。 |
| \d{3,} | 匹配 3 个或多个数字。 |
| \d{3,5} | 匹配 3 个、4 个或 5 个数字。 |
| \D\d+ | 无分组: + 重复 \d |
| (\D\d)+/ | 分组: + 重复 \D\d 对 |
| ([Rr]uby(, )?)+ | 匹配 “Ruby”、“Ruby, ruby, ruby”,等等 |
常用可以应用正则的函数:
.split(“”)切割字符串
.regexp_extract(string subject, string pattern, int index) 将字符串subject按照pattern正则表达式的规则拆分,返回index指定的字符
.regexp_replace(string A, string B, string C) 将字符串A中的符合Java正则表达式B的部分替换为C
.equals(“”)匹配
5、SQL like与rlikelike为通配符匹配,不是正则
%:匹配零个及多个任意字符
_:与任意单字符匹配
[]:匹配一个范围
[^]:排除一个范围
rlike为正则匹配
regexp与rlike功能相似
参考资料:(15条消息) sparksql 正则匹配总结_Andrew LD-CSDN博客_spark 正则表达式
6、中文数据关于csv文件若包含中文,可在读取时设置option参数
/**
* 注意option的设置
* 读取本地文件需要加上file:///否则默认读hdfs文件
*/
val inputData = spark.sqlContext.read.format("csv")
.option("sep","\t")
.option("encoding","GBK")
.option("header","true")
.load("file:///C:\Users\61907\Desktop\BigData\Spark\sparkDome1\HiveAndMysql\src\main\resources\cov19.csv")
jdbc读取数据库数据时,若有中文需设置jdbc连接参数
&useUnicode=true&characterEncoding=utf8
// jdbc中文编码设置
val mysqlMap = Map(
"url"->"jdbc:mysql://xx.xxx.x.x:3306/clown_db?useSSL=false&useUnicode=true&characterEncoding=utf8",
"user"->"root",
"password"->"xxx",
"driver"->"com.mysql.jdbc.Driver"
)
关于hive中存储中文数据,中文注释,中文分区(索引)
Ⅰ~Ⅲ参考资料:
(16条消息) hive设置中文编码格式utf-8_2020xyz的博客-CSDN博客_hive建表指定编码格式
(16条消息) hive修改使用utf8编码支持中文字符集_那又怎样?的博客-CSDN博客_hive默认字符集编码
Ⅰ.元数据库设置元数据库需设置为utf-8编码
##创建hive元数据库hive,并指定utf-8编码格式
mysql>create database hive DEFAULT CHARSET utf8 COLLATE utf8_general_ci;
##修改已存在的hive元数据库,字符编码格式为utf-8
mysql>alter database hive character set utf8;
##进入hive元数据库
mysql>use hive;
##查看元数据库字符编码格式
mysql>show variables like 'character_set_database';
1).修改字段注释字符集
mysql>alter table COLUMNS_V2 modify column COMMENT varchar(256) character set utf8;
2).修改表注释字符集
mysql>alter table TABLE_PARAMS modify column PARAM_VALUE varchar(4000) character set utf8;
类似的,PARAM_KEY若需要中文也可设置为utf8
3).修改分区表参数,以支持分区能够用中文表示
mysql>alter table PARTITION_PARAMS modify column PARAM_VALUE varchar(4000) character set utf8;
mysql>alter table PARTITION_KEYS modify column PKEY_COMMENT varchar(4000) character set utf8;
另外,PARTITIONS表中存放分区名的字段也需要修改为utf8
mysql>alter table PARTITIONS modify column PART_name varchar(4000) character set utf8;
4).修改索引注解
mysql>alter table INDEX_PARAMS modify column PARAM_VALUE varchar(250) character set utf8;
需要在jdbc连接中设置支持中文编码
&useSSL=false&useUnicode=true&characterEncoding=utf8
其中&需要使用&转义
参考资料:(16条消息) 【已解决】The reference to entity “useSSL” must end with the ‘;’ delimiter_清宵尚温的博客-CSDN博客
/opt/hive/conf/hive-site.xml:
<configuration>
<property>
<name>javax.jdo.option.ConnectionURLname>
<value>jdbc:mysql://localhost:3306/hive_demo?createDatabaseIfNotExist=true&useSSL=false&useUnicode=true&characterEncoding=utf8value>
<description>hive的元数据库 description>
property>
<property>
<name>javax.jdo.option.ConnectionDriverNamename>
<value>com.mysql.jdbc.Drivervalue>
<description>mysql的驱动jar包 description>
property>
<property>
<name>javax.jdo.option.ConnectionUserNamename>
<value>rootvalue>
<description>设定数据库的用户名 description>
property>
<property>
<name>javax.jdo.option.ConnectionPasswordname>
<value>xxxvalue>
<description>设定数据库的密码description>
property>
<property>
<name>hive.exec.max.dynamic.partitionsname>
<value>100000value>
<description>在所有执行MR的节点上,最大一共可以创建多少个动态分区description>
property>
<property>
<name>hive.exec.max.dynamic.partitions.pernodename>
<value>100000value>
<description>在所有执行MR的节点上,最大可以创建多少个动态分区description>
property>
configuration>
hdfs文件系统中显示
虽然正常显示中文但在文件夹中会出现
Path does not exist on HDFS or WebHDFS is disabled. Please check your path or enable WebHDFS
可能是中文路径导致的错误,但该错误目前未影响到分区表的正常 *** 作,具体影响仍需实验。
Ⅴ.暴力脚本- -参考资料:(16条消息) hive分区字段含中文导致的报错_一定要努力努力再努力的博客-CSDN博客_hive分区字段是中文
alter database hive_meta default character set utf8;
alter table BUCKETING_COLS default character set utf8;
alter table CDS default character set utf8;
alter table COLUMNS_V2 default character set utf8;
alter table DATABASE_PARAMS default character set utf8;
alter table DBS default character set utf8;
alter table FUNCS default character set utf8;
alter table FUNC_RU default character set utf8;
alter table GLOBAL_PRIVS default character set utf8;
alter table PARTITIONS default character set utf8;
alter table PARTITION_KEYS default character set utf8;
alter table PARTITION_KEY_VALS default character set utf8;
alter table PARTITION_PARAMS default character set utf8;
-- alter table PART_COL_STATS default character set utf8;
alter table ROLES default character set utf8;
alter table SDS default character set utf8;
alter table SD_PARAMS default character set utf8;
alter table SEQUENCE_TABLE default character set utf8;
alter table SERDES default character set utf8;
alter table SERDE_PARAMS default character set utf8;
alter table SKEWED_COL_NAMES default character set utf8;
alter table SKEWED_COL_VALUE_LOC_MAP default character set utf8;
alter table SKEWED_STRING_LIST default character set utf8;
alter table SKEWED_STRING_LIST_VALUES default character set utf8;
alter table SKEWED_VALUES default character set utf8;
alter table SORT_COLS default character set utf8;
alter table TABLE_PARAMS default character set utf8;
alter table TAB_COL_STATS default character set utf8;
alter table TBLS default character set utf8;
alter table VERSION default character set utf8;
alter table BUCKETING_COLS convert to character set utf8;
alter table CDS convert to character set utf8;
alter table COLUMNS_V2 convert to character set utf8;
alter table DATABASE_PARAMS convert to character set utf8;
alter table DBS convert to character set utf8;
alter table FUNCS convert to character set utf8;
alter table FUNC_RU convert to character set utf8;
alter table GLOBAL_PRIVS convert to character set utf8;
alter table PARTITIONS convert to character set utf8;
alter table PARTITION_KEYS convert to character set utf8;
alter table PARTITION_KEY_VALS convert to character set utf8;
alter table PARTITION_PARAMS convert to character set utf8;
-- alter table PART_COL_STATS convert to character set utf8;
alter table ROLES convert to character set utf8;
alter table SDS convert to character set utf8;
alter table SD_PARAMS convert to character set utf8;
alter table SEQUENCE_TABLE convert to character set utf8;
alter table SERDES convert to character set utf8;
alter table SERDE_PARAMS convert to character set utf8;
alter table SKEWED_COL_NAMES convert to character set utf8;
alter table SKEWED_COL_VALUE_LOC_MAP convert to character set utf8;
alter table SKEWED_STRING_LIST convert to character set utf8;
alter table SKEWED_STRING_LIST_VALUES convert to character set utf8;
alter table SKEWED_VALUES convert to character set utf8;
alter table SORT_COLS convert to character set utf8;
alter table TABLE_PARAMS convert to character set utf8;
alter table TAB_COL_STATS convert to character set utf8;
alter table TBLS convert to character set utf8;
alter table VERSION convert to character set utf8;
-- alter table PART_COL_STATS convert to character set utf8;
SET character_set_client = utf8 ;
-- SET character_set_connection = utf8 ;
-- alter table PART_COL_STATS convert to character set utf8;
SET character_set_database = utf8 ;
SET character_set_results = utf8 ;
SET character_set_server = utf8 ;
-- SET collation_connection = utf8 ;
-- SET collation_database = utf8 ;
-- SET collation_server = utf8 ;
SET NAMES 'utf8';
只复制了博客中修改表字段的部分
看看就好,最好还是根据需求修改。
Ⅵ.实例import org.apache.spark.sql.{SaveMode, SparkSession}
object CNHivePartitionTest {
def main(args: Array[String]): Unit = {
System.setProperty("hadoop.home.dir", "D:\BaiduNetdiskDownload\hadoop-2.7.3")
System.setProperty("HADOOP_USER_NAME", "root")
val spark = SparkSession.builder()
.appName("Cov19DataDome4")
.master("local[*]")
.config("spark.sql.warehouse.dir", "hdfs://xx.xxx.x.x:8020/user/hive/warehouse")
.config("hive.metastore.uris", "thrift://xx.xxx.x.x:9083")
.enableHiveSupport()
.getOrCreate()
import spark.implicits._
import org.apache.spark.sql.functions._
spark.sqlContext.sql("set hive.exec.dynamic.partition = true")
spark.sqlContext.sql("set hive.exec.dynamic.partition.mode = nonstrict")
val mysqlMap = Map(
"url" -> "jdbc:mysql://xx.xxx.x.x:3306/clown_db?useSSL=false&useUnicode=true&characterEncoding=utf8",
"user" -> "root",
"password" -> "xxx",
"driver" -> "com.mysql.jdbc.Driver"
)
val mysqlData = spark.read.format("jdbc")
.options(mysqlMap)
.option("dbtable","tc_hotel2")
.load()
spark.sqlContext.sql(
"""
|create table if not exists clown_test_db.CNTest
|(
| `hname` string,
| `hbrand` string,
| `province` string,
| `city` string,
| `starlevel` string,
| `rating` string,
| `comment_count` string,
| `price` string
|)
|partitioned by (pid string)
|row format delimited
|fields terminated by '\t'
|lines terminated by '\n'
|stored as textfile
|""".stripMargin)
mysqlData
.select(col("*"),col("province"))
.write
.format("hive")
.mode(SaveMode.Append)
.insertInto("clown_test_db.CNTest")
}
}
参考资料:https://blog.csdn.net/m0_37809146/article/details/91282446
val tb1 = spark.read.format("jdbc")
.options(mysqlMap)
.option("dbtable", "cov19_test_tb")
.load()
val tb2 = spark.read.format("jdbc")
.options(mysqlMap)
.option("dbtable", "cov19_test_tb_2")
.load()
.withColumnRenamed("", "")
/**
* inner 交集,只会联合给出字段都存在的数据
*/
tb1.join(tb2, Seq("provinceName", "cityName"), "inner")
// .show(100)
/**
* right 右链接,展示右边表所有数据
*/
tb1.join(tb2, Seq("provinceName", "cityName"), "right")
// .show(100)
/**
* left 左链接,展示左边表所有数据
*/
tb1.join(tb2, Seq("provinceName", "cityName"), "left")
// .show(100)
val testTb1 = tb1.withColumnRenamed("cityName", "tb1CN")
val testTb2 = tb2.withColumnRenamed("cityName", "tb1CN")
//默认 inner连接,进行连接的条件字段必须两边表都存在
testTb1.join(testTb2, "tb1CN")
// .show()
/**
* right_outer 右外连接,相当于左连接
*/
tb1.join(tb2, Seq("provinceName", "cityName"), "right_outer")
// .show(100)
/**
* left_outer 左外连接,相当于右连接
*/
tb1.join(tb2, Seq("provinceName", "cityName"), "left_outer")
// .show(100)
/**
* 外连接 类似把左右连接出的集合加起来- -
*/
tb1.join(tb2, Seq("provinceName", "cityName"), "outer")
// .show(100)
/**
* 全连接
*/
tb1.join(tb2, Seq("provinceName", "cityName"), "full")
// .show(100)
/**
* 全外连接
*/
tb1.join(tb2, Seq("provinceName", "cityName"), "full_outer")
// .show(100)
/**
* 交集
*/
tb1.join(tb2, Seq("provinceName", "cityName"), "left_semi")
.show(100)
/**
* 差集
*/
tb1.join(tb2, Seq("provinceName", "cityName"), "left_anti")
.show(100)
/**
* https://blog.csdn.net/wcc27857285/article/details/86439313
* 其他知识点:
* HAVING 子句
* 在 SQL 中增加 HAVING 子句原因是,WHERE 关键字无法与聚合函数一起使用。
*
* SQL HAVING 语法
* SELECT column_name, aggregate_function(column_name)
* FROM table_name
* WHERE column_name operator value
* GROUP BY column_name
* HAVING aggregate_function(column_name) operator value
*
*
* --- JOIN ON
* JOIN写连接字段
* ON写匹配条件
*
*/
Spark 2.4.0编程指南–Spark SQL UDF和UDAF-阿里云开发者社区 (aliyun.com)
(17条消息) Spark 2.3.0 用户自定义聚合函数UserDefinedAggregateFunction和Aggregator_L-CSDN博客
(17条消息) UDF和UDAF,UDTF的区别_山海-CSDN博客_udf和udtf区别
[(17条消息) Spark] 自定义函数 udf & pandas_udf_風の唄を聴け的博客-CSDN博客_pandas spark udf
9、数据集获取UCI机器学习知识库:包括近300个不同大小和类型的数据集,可用于分类、回归、聚类和推荐系统任务。数据集列表位于:http://archive.ics.uci.edu/ml/
Amazon AWS公开数据集:包含的通常是大型数据集,可通过Amazon S3访问。这些数据集包括人类基因组项目、Common Craw网页语料库、维基百科数据和Google Books Ngrams。相关信息可参见:http://aws.amazon.com/publicdatasets/
Kaggle:这里集合了Kaggle举行的各种机器学习竞赛所用的数据集。它们覆盖分类、回归、排名、推荐系统以及图像分析领域,可从
Competitions区域下载:http://www.kaggle.com/competitions
KDnuggets:这里包含一个详细的公开数据集列表,其中一些上面提到过的。该列表位于:http://www.kdnuggets.com/datasets/index.html
10、数仓分层概念参考资料:(10条消息) 数据仓库–数据分层(ETL、ODS、DW、APP、DIM)_hello_java_lcl的博客-CSDN博客_dim层
五、实战复盘 1、2022/1/3 题目: 数据源:csv文件(未修改)
mysql表格(增加脏数据)
环境准备:1.mysql数据表格 2.hive目标表 3.pom文件
完成速度:3h+
遇到问题: 1.data->mysql,数据保存SaveMode.Overwrite 保存至mysql数据库,不仅会覆盖数据格式,字段名也会被覆盖
在做题途中遇到了保存SaveMode.Append失败的错误,修改为Overwrite 不报错,原因不明
是否解决: ✔
出现错误
Unknown column 'sum' in 'field list'
原因是字段名与mysql数据库目标表中的字段名不同
修改字段名相同即可
.withColumnRenamed("sum","total_price")
在hive中是否有相同特性?
2.Join等表连接的使用Join,union仍不熟悉 select子查询也比较生疏
是否解决: ✔?
join理解下图足够
union联合要求字段相同 否则报错
3.Date计算参考资料:https://blog.csdn.net/wybshyy/article/details/52064337
使用datediff不需要转换时间格式
是否解决: ✔
参考资料:
(18条消息) Spark-SQL常用内置日期时间函数_绿萝蔓蔓绕枝生-CSDN博客_sparksql 时间函数
(18条消息) sparksql 时间函数_OH LEI``-CSDN博客_sparksql时间函数
datediff 计算两个时间差天数 结果返回一个整数
对时间格式可能有要求例如‘2021/1/4‘这样的时间格式无法被计算(sql中,算子貌似没有这个问题)
sql写法:
spark.sql(
"""
|select datediff('2021-1-4','2020-12-30')
|""".stripMargin).show()
算子写法:
.withColumn("o",datediff(col("delivery_date"),col("order_date")))
months_between计算两个时间差月数 结果返回一个浮点数
sql写法:
spark.sql(
"""
|select months_between('2021-1-4','2020-12-30')
|""".stripMargin).show()
返回:0.16129032
若想返回整数月份可以将天数删除:
spark.sql(
"""
|select months_between('2021-1','2020-12')
|""".stripMargin).show()
返回:1.0
算子写法:
.withColumn("o",months_between(col("delivery_date"),col("order_date")))
直接用时间戳相减通过计算也可以
spark.sql(
"""
|select (unix_timestamp('2022/1/1','yyyy/MM/dd') - unix_timestamp('2021/12/31','yyyy/MM/dd'))/60/60/24
|""".stripMargin).show()
2022-4-20补充:
第三部分数据源:
链接:https://pan.baidu.com/s/1U7BF0eDC56ea3XfcqejftA 提取码:zzzz
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