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Detailed explanation of eight implementation methods for MySQL database optimization.

黄舟
黄舟Original
2017-03-18 14:23:591004browse

Regarding database optimization, there is a lot of information and methods on the Internet, but the quality of many of them is uneven, some of them are not summarized well enough, and the content is redundant. Today I will share with you an article about eight ways to optimize mysql database. It is very classic. Friends who need it can refer to it

Introduction:

Regarding database optimization, there is a lot of information and methods on the Internet, but the quality of many of them is uneven, some of them are not summarized well enough, and the content is complicated.

I found this article by chance. The summary is very classic and the article traffic is also very large, so I got my own summary collection to accumulate high-quality articles and improve my personal abilities. I hope it will be helpful to everyone in future development

1. Select the most applicable field attributes

MySQL can well support the access of large amounts of data, but generally speaking, the database The smaller the table in the , the faster the queries executed on it will be. Therefore, when creating a table, in order to obtain better performance, we can set the width of the fields in the table as small as possible.

For example, when defining the postal code field, if you set it to CHAR(255), it will obviously add unnecessary space to the database. Even using VARCHAR is redundant, because CHAR(6 ) can complete the task very well. Likewise, if possible, we should use MEDIUMINT instead of BIGIN to define integer fields.

Another way to improve efficiency is to set the field to NOTNULL when possible, so that the database does not need to compare NULL values ​​when executing queries in the future.

For some text fields, such as "province" or "gender", we can define them as ENUM type. Because in MySQL, the ENUM type is treated as numeric data, and numeric data is processed much faster than text types. In this way, we can improve the performance of the database.

2. Use joins (JOIN) instead of sub-queries (Sub-Queries)

MySQL supports SQL subqueries starting from 4.1. This technique allows you to use a SELECT statement to create a single column of query results, and then use this result as a filter condition in another query. For example, if we want to delete customers who do not have any orders in the basic customer information table, we can use a subquery to first retrieve the IDs of all customers who issued orders from the sales information table, and then pass the results to the main query, as shown below :

DELETEFROMcustomerinfo
WHERECustomerIDNOTin(SELECTCustomerIDFROMsalesinfo)

Using subqueries can complete many SQL operations that logically require multiple steps to complete at one time. It can also avoid transaction or table locks, and it is also easy to write. However, there are situations where subqueries can be replaced by more efficient joins (JOINs). For example, if we want to retrieve all users who do not have order records, we can use the following query to complete it:

SELECT*FROMcustomerinfo
WHERECustomerIDNOTin(SELECTCustomerIDFROMsalesinfo)

If we use a connection (JOIN)... to complete this query, the speed will be much faster. Especially if there is an index on CustomerID in the salesinfo table, the performance will be better. The query is as follows:

SELECT*FROMcustomerinfo
LEFTJOINsalesinfoONcustomerinfo.CustomerID=salesinfo.CustomerID
WHEREsalesinfo.CustomerIDISNULL

Connection (JOIN).. The reason why it is more efficient is that MySQL does not need to be in memory. Creating a temporary table to complete this logical query requires two steps.

3. Use union (UNION) to replace the manually created temporary table

MySQL starts from version 4.0 Supports union query, which can combine two or more select queries that need to use temporary tables into one query. When the client's query session ends, the temporary table will be automatically deleted to ensure that the database is tidy and efficient. When using union to create a query, we only need to use UNION as the keyword to connect multiple select statements. It should be noted that the number of fields in all select statements must be the same. The following example demonstrates a query using UNION.

SELECTName,PhoneFROMclientUNION
SELECTName,BirthDateFROMauthorUNION
SELECTName,SupplierFROMproduct

4、Transaction

  尽管我们可以使用子查询(Sub-Queries)、连接(JOIN)和联合(UNION)来创建各种各样的查询,但不是所有的数据库操作都可以只用一条或少数几条SQL语句就可以完成的。更多的时候是需要用到一系列的语句来完成某种工作。但是在这种情况下,当这个语句块中的某一条语句运行出错的时候,整个语句块的操作就会变得不确定起来。设想一下,要把某个数据同时插入两个相关联的表中,可能会出现这样的情况:第一个表中成功更新后,数据库突然出现意外状况,造成第二个表中的操作没有完成,这样,就会造成数据的不完整,甚至会破坏数据库中的数据。要避免这种情况,就应该使用事务,它的作用是:要么语句块中每条语句都操作成功,要么都失败。换句话说,就是可以保持数据库中数据的一致性和完整性。事物以BEGIN关键字开始,COMMIT关键字结束。在这之间的一条SQL操作失败,那么,ROLLBACK命令就可以把数据库恢复到BEGIN开始之前的状态。

BEGIN;
 INSERTINTOsalesinfoSETCustomerID=14;
 UPDATEinventorySETQuantity=11WHEREitem='book';
COMMIT;

  事务的另一个重要作用是当多个用户同时使用相同的数据源时,它可以利用锁定数据库的方法来为用户提供一种安全的访问方式,这样可以保证用户的操作不被其它的用户所干扰。

5、锁定表

  尽管事务是维护数据库完整性的一个非常好的方法,但却因为它的独占性,有时会影响数据库的性能,尤其是在很大的应用系统中。由于在事务执行的过程中,数据库将会被锁定,因此其它的用户请求只能暂时等待直到该事务结束。如果一个数据库系统只有少数几个用户来使用,事务造成的影响不会成为一个太大的问题;但假设有成千上万的用户同时访问一个数据库系统,例如访问一个电子商务网站,就会产生比较严重的响应延迟。

  其实,有些情况下我们可以通过锁定表的方法来获得更好的性能。下面的例子就用锁定表的方法来完成前面一个例子中事务的功能。

LOCKTABLEinventoryWRITESELECTQuantityFROMinventoryWHEREItem='book';
...
UPDATEinventorySETQuantity=11WHEREItem='book';UNLOCKTABLES

  这里,我们用一个select语句取出初始数据,通过一些计算,用update语句将新值更新到表中。包含有WRITE关键字的LOCKTABLE语句可以保证在UNLOCKTABLES命令被执行之前,不会有其它的访问来对inventory进行插入、更新或者删除的操作。

6、使用外键

  锁定表的方法可以维护数据的完整性,但是它却不能保证数据的关联性。这个时候我们就可以使用外键。

  例如,外键可以保证每一条销售记录都指向某一个存在的客户。在这里,外键可以把customerinfo表中的CustomerID映射到salesinfo表中CustomerID,任何一条没有合法CustomerID的记录都不会被更新或插入到salesinfo中。

CREATETABLEcustomerinfo( CustomerIDINTNOTNULL,PRIMARYKEY(CustomerID))TYPE=INNODB;
CREATETABLEsalesinfo( SalesIDINTNOTNULL,CustomerIDINTNOTNULL,
PRIMARYKEY(CustomerID,SalesID),
FOREIGNKEY(CustomerID)REFERENCEScustomerinfo(CustomerID)ONDELETECASCADE)TYPE=INNODB; 

 注意例子中的参数“ONDELETECASCADE”。该参数保证当customerinfo表中的一条客户记录被删除的时候,salesinfo表中所有与该客户相关的记录也会被自动删除。如果要在MySQL中使用外键,一定要记住在创建表的时候将表的类型定义为事务安全表InnoDB类型。该类型不是MySQL表的默认类型。定义的方法是在CREATETABLE语句中加上TYPE=INNODB。如例中所示。

7、使用索引

  索引是提高数据库性能的常用方法,它可以令数据库服务器以比没有索引快得多的速度检索特定的行,尤其是在查询语句当中包含有MAX(),MIN()和ORDERBY这些命令的时候,性能提高更为明显。

  那该对哪些字段建立索引呢?

  一般说来,索引应建立在那些将用于JOIN,WHERE判断和ORDERBY排序的字段上。尽量不要对数据库中某个含有大量重复的值的字段建立索引。对于一个ENUM类型的字段来说,出现大量重复值是很有可能的情况

  例如customerinfo中的“province”..字段,在这样的字段上建立索引将不会有什么帮助;相反,还有可能降低数据库的性能。我们在创建表的时候可以同时创建合适的索引,也可以使用ALTERTABLE或CREATEINDEX在以后创建索引。此外,MySQL从版本3.23.23开始支持全文索引和搜索。全文索引在MySQL中是一个FULLTEXT类型索引,但仅能用于MyISAM类型的表。对于一个大的数据库,将数据装载到一个没有FULLTEXT索引的表中,然后再使用ALTERTABLE或CREATEINDEX创建索引,将是非常快的。但如果将数据装载到一个已经有FULLTEXT索引的表中,执行过程将会非常慢。

8、优化的查询语句

  绝大多数情况下,使用索引可以提高查询的速度,但如果SQL语句使用不恰当的话,索引将无法发挥它应有的作用。

下面是应该注意的几个方面。

  a、 首先,最好是在相同类型的字段间进行比较的操作

  在MySQL3.23版之前,这甚至是一个必须的条件。例如不能将一个建有索引的INT字段和BIGINT字段进行比较;但是作为特殊的情况,在CHAR类型的字段和VARCHAR类型字段的字段大小相同的时候,可以将它们进行比较。

  b、 其次,在建有索引的字段上尽量不要使用函数进行操作

  例如,在一个DATE类型的字段上使用YEAE()函数时,将会使索引不能发挥应有的作用。所以,下面的两个查询虽然返回的结果一样,但后者要比前者快得多。

  c、第三,在搜索字符型字段时,我们有时会使用LIKE关键字和通配符,这种做法虽然简单,但却也是以牺牲系统性能为代价的

例如下面的查询将会比较表中的每一条记录。

SELECT*FROMbooks
WHEREnamelike"MySQL%"

  但是如果换用下面的查询,返回的结果一样,但速度就要快上很多:

SELECT*FROMbooks
WHEREname>="MySQL"andname<"MySQM"

  最后,应该注意避免在查询中让MySQL进行自动类型转换,因为转换过程也会使索引变得不起作用。

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