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一、导读
MySQL 8.0.19 开始反对对InnoDB引擎表数据进行采样以生成直方图统计信息。
直方图(Histogram)是关系型数据库中提供的一种根底的统计信息,最典型的用处是预计查问谓词的选择率,以便抉择优化的查问执行打算。
常见的直方图品种有:等宽直方图、等高直方图。
二、步骤
2.1 SQL语句
# 创立直方图ANALYZE [NO_WRITE_TO_BINLOG | LOCAL] TABLE tbl_name UPDATE HISTOGRAM ON col_name [, col_name] ... [WITH N BUCKETS]# 删除直方图ANALYZE [NO_WRITE_TO_BINLOG | LOCAL] TABLE tbl_name DROP HISTOGRAM ON col_name [, col_name] ...2.2 直方图案例
创立直方图,更新就是等于创立,会进行从新采样
mysql> analyze table t1 update histogram on tcol01 with 2 buckets;+---------+-----------+----------+---------------------------------------------------+| Table | Op | Msg_type | Msg_text |+---------+-----------+----------+---------------------------------------------------+| test.t1 | histogram | status | Histogram statistics created for column 'tcol01'. |+---------+-----------+----------+---------------------------------------------------+1 row in set (6.38 sec)删除直方图
mysql> analyze table t1 drop histogram on tcol01;+---------+-----------+----------+---------------------------------------------------+| Table | Op | Msg_type | Msg_text |+---------+-----------+----------+---------------------------------------------------+| test.t1 | histogram | status | Histogram statistics removed for column 'tcol01'. |+---------+-----------+----------+---------------------------------------------------+1 row in set (0.02 sec)2.3 查看直方图统计信息
查看直方图的视图信息
mysql> show create table information_schema.column_statistics\G*************************** 1. row *************************** View: COLUMN_STATISTICS Create View: CREATE ALGORITHM=UNDEFINED DEFINER=`mysql.infoschema`@`localhost` SQL SECURITY DEFINER VIEW `information_schema`.`COLUMN_STATISTICS` AS select `mysql`.`column_statistics`.`schema_name` AS `SCHEMA_NAME`,`mysql`.`column_statistics`.`table_name` AS `TABLE_NAME`,`mysql`.`column_statistics`.`column_name` AS `COLUMN_NAME`,`mysql`.`column_statistics`.`histogram` AS `HISTOGRAM` from `mysql`.`column_statistics` where (0 <> can_access_table(`mysql`.`column_statistics`.`schema_name`,`mysql`.`column_statistics`.`table_name`))character_set_client: utf8collation_connection: utf8_general_ci1 row in set (0.01 sec)能够通过 information_schema.column_statistics 查看,会列出所有直方图信息
mysql> select * from information_schema.column_statistics\G;*************************** 1. row ***************************SCHEMA_NAME: test TABLE_NAME: t_userCOLUMN_NAME: age HISTOGRAM: {"buckets": [[1, 0.00002000013333422223], [10, 0.23445489636597577], [11, 0.46630977539850266], [12, 0.5326868845792305], [13, 0.5991973279821865], [14, 0.665747771651811], [15, 0.7325715504770032], [16, 0.7999486663244422], [17, 0.8668091120607471], [18, 0.9329928866192441], [19, 0.9999766665111101], [127, 1.0]], "data-type": "int", "null-values": 0.0, "collation-id": 8, "last-updated": "2022-04-21 06:53:35.194420", "sampling-rate": 1.0, "histogram-type": "singleton", "number-of-buckets-specified": 100}......2.3 直方图分类
对于等宽直方图,每个桶蕴含两个值,大抵信息如下
SCHEMA_NAME: test # 库名 TABLE_NAME: t1 # 表名COLUMN_NAME: tcol01 # 列名 HISTOGRAM: { "buckets":[ [ 0, # 1.桶的值,表中理论数据的取值。类型是取决于字段数据类型,比方上面是`int`类型。 0.06585605673110825 # 2.取值频率,桶的值呈现的大抵频率,double类型。 ], ...... ], "data-type":"int", # 数据类型 "null-values":0, # 是否有NULL值 "collation-id":8, "last-updated":"2022-04-21 06:59:55.850333", # 桶最初更新工夫,不会自动更新 "sampling-rate":0.4059331843720921, # 采样率,如果是1,示意采集所有数据 "histogram-type":"singleton", # 桶类型,等宽 "number-of-buckets-specified":100 # 桶数量}对于等高直方图,每个桶中蕴含四个值,大抵信息如下
SCHEMA_NAME: test TABLE_NAME: t1COLUMN_NAME: tcol10 HISTOGRAM: { "buckets":[ [ "2021-04-18 12:12:00.000000", # 1.最小值 "2021-04-22 05:05:56.000000", # 2.最大值 0.010002279268725782, # 3.桶的值呈现的大抵频率,double类型 3523 # 4.桶值呈现的次数 ], ...... ], "data-type":"datetime", "null-values":0, "collation-id":8, "last-updated":"2022-04-21 07:00:43.232745", "sampling-rate":0.18943548604030958, "histogram-type":"equi-height", # 桶类型,等高 "number-of-buckets-specified":100}2.4 应用限度
直方图是对表进行操作,能够看下不同的表类型对直方图的反对状况:
- 1、直方图反对
InnoDB,NDB,MyISAM表类型,反对分区表类型,不反对views类型。 - 2、加密表不反对创立,次要还是为了防止相干数据透露。
- 3、长期表不反对创立,连贯会话敞开后,长期表就被清理了,也就没有创立必要。
- 4、单列惟一索引、主键索引不反对创立直方图,创立的时候会提醒
Error,并输入谬误提醒The column 'id' is covered by a single-part unique index. - 5、几何类型(空间数据)和JSON类型也临时不反对直方图。
直方图采集的根本单位是表中的列数据,也就是当列数据或类型产生变更或删除的时候直方图可能也会呈现相应变动,通过测试有如下状况:
- 1、当表被删除的时候,直方图会同步被删除,
truncte操作不会有影响,同理insert、delete、update也不会有影响。 - 2、当批改字段类型、字段长度,直方图会被删除。
- 3、当批改表名后,直方图
TABLE_NAME字段会同步更新,和新表建设关联。 - 4、批改字段字符集后,直方图会被删除。例如
ALTER TABLE t1006 MODIFY utf8 VARCHAR(64) CHARACTER SET latin1;
其余留神点:
- 1、ANALYZE TABLE 剖析过程须要从表定义缓存中删除表,所以该过程会产生一个
flush锁。如果有长时间运行的语句或事务仍在应用表,则后续语句和事务必须期待这些操作实现后才开释flush锁。 - 2、直方图把统计数据存储在数据字典的的统计表内,所以当
innodb_read_only参数开启的时候,可能因为无奈更新数据字典t统计信息导致执行失败,
三、直方图应用案例
先查看下t_user上age各个年龄段的人数;以后t_user上age字段没有建设索引。
mysql> select age,count(id) from t_user group by age;+------+-----------+| age | count(id) |+------+-----------+| 11 | 69556 || 1 | 6 || 127 | 7 || 10 | 70330 || 19 | 20095 || 13 | 19953 || 18 | 19855 || 12 | 19913 || 14 | 19965 || 17 | 20058 || 15 | 20047 || 16 | 20213 |+------+-----------+12 rows in set (0.18 sec)解析查问年龄段 > 10 age < 12。
通过剖析,能够看出执行过程type=ALL走了全表扫描,filtered=11.11 过滤比例还是比拟低的,同时表上没有建设索引,所以key=NuLL。
mysql> explain select * from t_user where age>10 and age<12;+----+-------------+--------+------------+------+---------------+------+---------+------+--------+----------+-------------+| id | select_type | table | partitions | type | possible_keys | key | key_len | ref | rows | filtered | Extra |+----+-------------+--------+------------+------+---------------+------+---------+------+--------+----------+-------------+| 1 | SIMPLE | t_user | NULL | ALL | NULL | NULL | NULL | NULL | 299131 | 11.11 | Using where |+----+-------------+--------+------------+------+---------------+------+---------+------+--------+----------+-------------+1 row in set, 1 warning (0.00 sec)创立一个直方图;依据步骤1查出来,年龄段大略分类12,所以咱们建设12个桶
mysql> analyze table t_user update histogram on age with 12 buckets;+-------------+-----------+----------+------------------------------------------------+| Table | Op | Msg_type | Msg_text |+-------------+-----------+----------+------------------------------------------------+| test.t_user | histogram | status | Histogram statistics created for column 'age'. |+-------------+-----------+----------+------------------------------------------------+1 row in set (0.06 sec)# 查看建设的直方图信息mysql> select * from information_schema.column_statistics\G;SCHEMA_NAME: test TABLE_NAME: t_userCOLUMN_NAME: age HISTOGRAM: {{ "buckets": [ [1, 0.0002608242044861763], [10, 0.27339593114241006], [11, 0.5397496087636933], [12, 0.5968179447052686], [13, 0.6553990610328638], [14, 0.7131977047470005], [15, 0.7706311945748565], [16, 0.8261345852895148], [17, 0.8855503390714657], [18, 0.9423056859676577], [19, 0.9996870109546165], [127, 1.0] ], "data-type": "int", "null-values": 0.0, "collation-id": 8, "last-updated": "2022-04-24 03:00:47.361704", "sampling-rate": 0.059696731054764834, "histogram-type": "singleton", "number-of-buckets-specified": 12}3 rows in set (0.00 sec)再进行查问剖析
通过剖析,能够看出执行过程type=ALL在建设直方图后也是走了全表扫描,filtered=39.22 过滤有显著晋升。
mysql> explain select * from t_user where age>10 and age<12;+----+-------------+--------+------------+------+---------------+------+---------+------+--------+----------+-------------+| id | select_type | table | partitions | type | possible_keys | key | key_len | ref | rows | filtered | Extra |+----+-------------+--------+------------+------+---------------+------+---------+------+--------+----------+-------------+| 1 | SIMPLE | t_user | NULL | ALL | NULL | NULL | NULL | NULL | 299131 | 39.22 | Using where |+----+-------------+--------+------------+------+---------------+------+---------+------+--------+----------+-------------+1 row in set, 1 warning (0.01 sec)总体而言,从两次执行打算的差异能够看出建设直方图后,filtered 列 39.22 比 没有建设直方图 11.11 值有更好的过滤成果。
PS:对于filtered列,这个字段示意存储引擎返回的数据在Server层过滤后,剩下多少满足查问的记录数量的比例。
进一步通过开启TRACE查看执行打算
因为优化器会默认的认为各个年龄段的数据分布是平均的,所以当没有直方图扫描的范畴会比拟大,相应的在Server层过滤的数据也就较少。
同理,在有直方图的状况下,优化器能够通过直方图来剖析年龄段的数据分布,从而调整扫描范畴,过滤更多数据。
mysql> SET OPTIMIZER_TRACE = "enabled=on";mysql> SET OPTIMIZER_TRACE_MAX_MEM_SIZE = 1000000;mysql> explain select * from t_user where age>10 and age<12;mysql> SELECT * FROM INFORMATION_SCHEMA.OPTIMIZER_TRACE\G;# 能够看到执行打算外面用到了`histogram_selectivity`"considered_execution_plans": [ { "plan_prefix": [ ], "table": "`t_user`", "best_access_path": { "considered_access_paths": [ { "rows_to_scan": 299131, "filtering_effect": [ { "condition": "(`t_user`.`age` > 10)", "histogram_selectivity": 0.726604 }, { "condition": "(`t_user`.`age` < 12)", "histogram_selectivity": 0.53975 } ], "final_filtering_effect": 0.392184, "access_type": "scan", "resulting_rows": 117314, "cost": 30193.9, "chosen": true } ]四、直方图资源耗费
生成直方图须要对数据进行采样剖析,这个过程须要耗费肯定的内存资源和IO资源。
咱们能够通过监控来查看下该过程须要耗费多少资源,当然咱们也能够通过sys.x$memory_by_thread_by_current_bytes视图来比照采样前后内存的差值变动来大抵预估直方图创立过程须要耗费多少内存,具体步骤可移步老叶茶馆浏览 https://mp.weixin.qq.com/s/7FI87f6t3UvbE9GGhw8iVA
另外能够通过调整参数 set session histogram_generation_max_mem_size = 1000000; 来限度内存的应用,同时这样也会相应升高采样率。
五、总结
本文对直方图的内容进行简略的介绍,篇幅所限,更多细节内容请移步官网进行查看,另外对于列中曾经有索引的状况下,优化器会如何抉择执行打算,篇幅所限,当前再进行测试。
https://dev.mysql.com/doc/refman/8.0/en/analyze-table.html#analyze-table-histogram-statistics-analysishttps://dev.mysql.com/doc/refman/8.0/en/optimizer-statistics.htmlhttps://mp.weixin.qq.com/s/7FI87f6t3UvbE9GGhw8iVA
Enjoy GreatSQL :)
文章举荐:
面向金融级利用的GreatSQL正式开源
https://mp.weixin.qq.com/s/cI...
Changes in GreatSQL 8.0.25 (2021-8-18)
https://mp.weixin.qq.com/s/qc...
MGR及GreatSQL资源汇总
https://mp.weixin.qq.com/s/qX...
GreatSQL MGR FAQ
https://mp.weixin.qq.com/s/J6...
在Linux下源码编译装置GreatSQL/MySQL
https://mp.weixin.qq.com/s/WZ...
# 对于 GreatSQL
GreatSQL是由万里数据库保护的MySQL分支,专一于晋升MGR可靠性及性能,反对InnoDB并行查问个性,是实用于金融级利用的MySQL分支版本。
Gitee:
https://gitee.com/GreatSQL/Gr...
GitHub:
https://github.com/GreatSQL/G...
Bilibili:
https://space.bilibili.com/13...
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