hive函数之~hive当中的lateral view 与 explode
1、使用explode函数将hive表中的Map和Array字段数据进行拆分
lateral view
用于和split、explode等UDTF一起使用的,能将一行数据拆分成多行数据,在此基础上可以对拆分的数据进行聚合,lateral view首先为原始表的每行调用UDTF,UDTF会把一行拆分成一行或者多行,lateral view在把结果组合,产生一个支持别名表的虚拟表。
其中explode还可以用于将hive一列中复杂的array或者map结构拆分成多行。
需求:现在有数据格式如下
zhangsan child1,child2,child3,child4 k1:v1,k2:v2 lisi child5,child6,child7,child8 k3:v3,k4:v4
字段之间使用\t分割,需求将所有的child进行拆开成为一列
+----------+--+ | mychild | +----------+--+ | child1 | | child2 | | child3 | | child4 | | child5 | | child6 | | child7 | | child8 | +----------+--+
将map的key和value也进行拆开,成为如下结果
+-----------+-------------+--+ | mymapkey | mymapvalue | +-----------+-------------+--+ | k1 | v1 | | k2 | v2 | | k3 | v3 | | k4 | v4 | +-----------+-------------+--+
第一步:创建hive数据库
创建hive数据库
hive (default)> create database hive_explode; hive (default)> use hive_explode;
第二步:创建hive表,然后使用explode拆分map和array
hive (hive_explode)> create table t3(name string,children array<string>,address Map<string,string>) row format delimited fields terminated by ‘\t‘ collection items terminated by ‘,‘ map keys terminated by ‘:‘ stored as textFile;
第三步:加载数据
node03执行以下命令创建表数据文件
mkdir -p /export/servers/hivedatas/ cd /export/servers/hivedatas/ vim maparray zhangsan child1,child2,child3,child4 k1:v1,k2:v2 lisi child5,child6,child7,child8 k3:v3,k4:v4
hive表当中加载数据
hive (hive_explode)> load data local inpath ‘/export/servers/hivedatas/maparray‘ into table t3;
第四步:使用explode将hive当中数据拆开
将array当中的数据拆分开
hive (hive_explode)> SELECT explode(children) AS myChild FROM t3;
将map当中的数据拆分开
hive (hive_explode)> SELECT explode(address) AS (myMapKey, myMapValue) FROM t3;
2、使用explode拆分json字符串
需求:现在有一些数据格式如下:
a:shandong,b:beijing,c:hebei|1,2,3,4,5,6,7,8,9|[{"source":"7fresh","monthSales":4900,"userCount":1900,"score":"9.9"},{"source":"jd","monthSales":2090,"userCount":78981,"score":"9.8"},{"source":"jdmart","monthSales":6987,"userCount":1600,"score":"9.0"}]
其中字段与字段之间的分隔符是 |
我们要解析得到所有的monthSales对应的值为以下这一列(行转列)
4900 2090 6987
第一步:创建hive表
hive (hive_explode)> create table explode_lateral_view (`area` string, `goods_id` string, `sale_info` string) ROW FORMAT DELIMITED FIELDS TERMINATED BY ‘|‘ STORED AS textfile;
第二步:准备数据并加载数据
准备数据如下
cd /export/servers/hivedatas vim explode_json
a:shandong,b:beijing,c:hebei|1,2,3,4,5,6,7,8,9|[{"source":"7fresh","monthSales":4900,"userCount":1900,"score":"9.9"},{"source":"jd","monthSales":2090,"userCount":78981,"score":"9.8"},{"source":"jdmart","monthSales":6987,"userCount":1600,"score":"9.0"}]
加载数据到hive表当中去
hive (hive_explode)> load data local inpath ‘/export/servers/hivedatas/explode_json‘ overwrite into table explode_lateral_view;
第三步:使用explode拆分Array
hive (hive_explode)> select explode(split(goods_id,‘,‘)) as goods_id from explode_lateral_view;
第四步:使用explode拆解Map
hive (hive_explode)> select explode(split(area,‘,‘)) as area from explode_lateral_view;
5.创建hive表并导入数据
创建hive表并加载数据
hive (hive_explode)> create table person_info( name string, constellation string, blood_type string) row format delimited fields terminated by "\t"; 加载数据 hive (hive_explode)> load data local inpath ‘/export/servers/hivedatas/constellation.txt‘ into table person_info;
第五步:拆解json字段
hive (hive_explode)> select explode(split(regexp_replace(regexp_replace(sale_info,‘\\[\\{‘,‘‘),‘}]‘,‘‘),‘},\\{‘)) as sale_info from explode_lateral_view;
然后我们想用get_json_object来获取key为monthSales的数据:
hive (hive_explode)> select get_json_object(explode(split(regexp_replace(regexp_replace(sale_info,‘\\[\\{‘,‘‘),‘}]‘,‘‘),‘},\\{‘)),‘$.monthSales‘) as sale_info from explode_lateral_view;
然后挂了FAILED: SemanticException [Error 10081]: UDTF‘s are not supported outside the SELECT clause, nor nested in expressions
UDTF explode不能写在别的函数内
如果你这么写,想查两个字段,select explode(split(area,‘,‘)) as area,good_id from explode_lateral_view;
会报错FAILED: SemanticException 1:40 Only a single expression in the SELECT clause is supported with UDTF‘s. Error encountered near token ‘good_id‘
使用UDTF的时候,只支持一个字段,这时候就需要LATERAL VIEW出场了
3、配合LATERAL VIEW使用
配合lateral view查询多个字段
hive (hive_explode)> select goods_id2,sale_info from explode_lateral_view LATERAL VIEW explode(split(goods_id,‘,‘))goods as goods_id2;
其中LATERAL VIEW explode(split(goods_id,‘,‘))goods相当于一个虚拟表,与原表explode_lateral_view笛卡尔积关联。
也可以多重使用
hive (hive_explode)> select goods_id2,sale_info,area2 from explode_lateral_view LATERAL VIEW explode(split(goods_id,‘,‘))goods as goods_id2 LATERAL VIEW explode(split(area,‘,‘))area as area2; 也是三个表笛卡尔积的结果
最终,我们可以通过下面的句子,把这个json格式的一行数据,完全转换成二维表的方式展现
hive (hive_explode)> select get_json_object(concat(‘{‘,sale_info_1,‘}‘),‘$.source‘) as source, get_json_object(concat(‘{‘,sale_info_1,‘}‘),‘$.monthSales‘) as monthSales, get_json_object(concat(‘{‘,sale_info_1,‘}‘),‘$.userCount‘) as monthSales, get_json_object(concat(‘{‘,sale_info_1,‘}‘),‘$.score‘) as monthSales from explode_lateral_view LATERAL VIEW explode(split(regexp_replace(regexp_replace(sale_info,‘\\[\\{‘,‘‘),‘}]‘,‘‘),‘},\\{‘))sale_info as sale_info_1;
总结:
Lateral View通常和UDTF一起出现,为了解决UDTF不允许在select字段的问题。
Multiple Lateral View可以实现类似笛卡尔乘积。
Outer关键字可以把不输出的UDTF的空结果,输出成NULL,防止丢失数据。