Detailed explanation of count(), union() and group by statements in MySQL

This article will take you through count(), union() and group by statements, and supplement MySQL knowledge points (the usage of different count(), union execution process, group by statement).

1. Different usages of count() in MySQL

count() is an aggregate function, for the returned result set , judge line by line, if the parameter of the count function is not NULL, the cumulative value will be added by 1, otherwise it will not be added. Finally, the cumulative value is returned. [Related recommendations: mysql video tutorial]

1. For count (primary key id), the InnoDB engine will traverse the entire table, take out the id value of each row, and return To the server layer. After the server layer gets the id, it determines that it cannot be empty, so it accumulates it by row

2. For count(1), the InnoDB engine traverses the entire table but does not take a value. The server layer puts a number 1 into each row returned. It is judged that it cannot be empty and accumulates

3 by row. For count (field), if this field is defined as not null , read this field from the record line by line, and judge that it cannot be null, and accumulate it line by line; if the field definition allows null, then when executing, it is judged that it may be null, and the value must be taken out and judged. Now, it’s not null that accumulates

4. For count(*), not all fields are taken out, but are specially optimized. No value is taken, count(*) is definitely not null, and is accumulated by row

## 2. Union execution process

In order to facilitate quantitative analysis, take the following table t1 as an example

create table t1(id int primary key, a int, b int, index(a));

CREATE DEFINER=`root`@`%` PROCEDURE `idata`()
BEGIN
	declare i int;
  set i=1;
  while(i<=1000)do
    insert into t1 values(i, i, i);
    set i=i+1;
  end while;

END

Analyze the following SQL statement:

(select 1000 as f) union (select id from t1 order by id desc limit 2);

The semantics of union is to take the union of the results of these two subqueries. The union means that the two sets are added together, and only one row of duplicate rows is retained

The key=PRIMARY in the second row indicates that the second clause uses When it comes to the Extra field in the third row of index id
• , it means that when doing union on the result set of the subquery, a temporary table is used

The execution flow of this statement is as follows:

1. Create a memory temporary table. This temporary table has only one integer field f, and f is the primary key field

2. Execute the first subquery and get the value 1000

3. Execute the second subquery:

Get the first row id=1000 and try to insert it into the temporary table. But since the value 1000 already exists in the temporary table, it violates the uniqueness constraint, so the insertion fails, and then continues to execute
• to get the second row id=999, and the insertion into the temporary table is successful

4. Get the data row by row from the temporary table, return the result, and delete the temporary table. The result contains two rows of data, 1000 and 999

Here The memory temporary table plays the role of temporary storage of data, and the calculation process also uses the uniqueness constraint of the temporary table's primary key ID to realize the semantics of union

If the union in the above statement is changed to union all , there is no semantics for deduplication. When executed in this way, the subqueries are executed in sequence, and the results obtained are directly sent to the client as part of the result set. Therefore, there is no need for a temporary table

The Extra field in the second line shows Using index, which means that only the covering index is used and no temporary table is used

3. Detailed explanation of group by statement

1. Group by execution process

Still use the above table t1 to analyze the following SQL statement:

select id%10 as m, count(*) as c from t1 group by m;

The logic of this statement is to group the data in table t1 according to id, and then output it after sorting the result of m. The explain result is as follows:

In the Extra field, you can see three pieces of information:

Using index, indicating that this statement uses a covering index, selected Index a, there is no need to return to the table
• Using temporary, indicating that a temporary table is used
• Using filesort, indicating that sorting is required

The execution flow of this statement is as follows:

1. Create a temporary memory table. There are two fields m and c in the table. The primary key is m

2. Scan the index a of table t1, take out the id values ​​on the leaf nodes in turn, and calculate The result of id is recorded as x

If there is no row with primary key x in the temporary table, insert a record (x,1)
• If there is a row with primary key x in the table row, add 1 to the c value of the row

内存临时表排序流程图：

如果并不需要对结果进行排序，在SQL语句末尾增加order by null：

select id%10 as m, count(*) as c from t1 group by m order by null;

由于表t1中的id值是从1开始的，因此返回的结果集中第一行是id=1

这个例子里由于临时表只有10行，内存可以放得下，因此全程只使用了内存临时表。但是，内存临时表的大小是有限的，参数tmp_table_size就是控制整个内存大小的，默认是16M

set tmp_table_size=1024;
select id%100 as m, count(*) as c from t1 group by m order by null limit 10;

把内存临时表的大小限制为最大1024字节，并把语句改成id%100，这样返回结果里有100行数据。但是，这时的内存临时表大小不够存下这100行数据，也就是说，执行过程中会发现内存临时表大小达到了上限。那么，这时候会把内存临时表转成磁盘临时表，磁盘临时表默认使用的引擎是InnoDB

2、group by优化方法——索引

group by的语义逻辑，是统计不同的值的个数。但是，由于每一行的id%100的结果是无序的，所以就需要有一个临时表来记录并统计结果。那么，如果扫描过程中可以保证出现的数据是有序的就可以了

假设，现在有一个类似下图的这么一个数据结构

如果可以确保输入的数据是有序的，那么计算group by的时候，就只需要从左到右，顺序扫描，依次累加。也就是下面这个流程：

• 当碰到第一个1的时候，已经知道累积了X个0，结果集里的第一行就是(0,X)
• 当碰到第一个2的时候，已经知道累积了Y个1，结果集里的第一行就是(1,Y)

按照这个逻辑执行的话，扫描到整个输入的数据结束，就可以拿到group by的结果，不需要临时表，也需要再额外排序

在MySQL5.7版本支持了generated column机制，用来实现列数据的关联更新。创建一个列z，在z列上创建一个索引

alter table t1 add column z int generated always as(id % 100), add index(z);

这样，索引z上的数据就是有序的了。group by语句就可以改成：

select z, count(*) as c from t1 group by z;

从这个Extra字段可以看到，这个语句的执行不再需要临时表，也不需要排序了

3、group by优化方法——直接排序

在group by语句中加入SQL_BIG_RESULT这个提示，就可以告诉优化器：这个语句涉及的数据量很大，直接用磁盘临时表。因为磁盘临时表是B+树存储，存储效率不如数组来得高。所以MySQL优化器直接用数组来存

select SQL_BIG_RESULT id%100 as m, count(*) as c from t1 group by m;

1.初始化sort_buffer，确定放入一个整型字段，记为m

2.扫描表t1的索引a，依次取出里面的id值，将id%100的值存入sort_buffer中

3.扫描完成后，对sort_buffer的字段m做排序（如果sort_buffer内存不够用，就会利用磁盘临时文件辅助排序）

4.排序完成后，就得到了一个有序数组

根据有序数组，得到数组里面的不同值，以及每个值的出现次数

这个语句的执行没有再使用临时表，而是直接用了排序算法

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