MySQL8.0新特性之統計直方圖
原文:https://mysqlserverteam.com/histogram-statistics-in-mysql/
統計直方圖
概覽
MySQL8.0實現了統計直方圖。利用直方圖,使用者可以對一張表的一列做資料分佈的統計,特別是針對沒有索引的欄位。這可以幫助查詢優化器找到更優的執行計劃。統計直方圖的主要使用場景是用來計算欄位選擇性,即過濾效率。
可以通過以下方式來建立或者刪除直方圖:
ANALYZE TABLE tbl_name UPDATE HISTOGRAM ON col_name [, col_name] WITH N BUCKETS;
ANALYZE TABLE tbl_name DROP HISTOGRAM ON col_name [, col_name]; buckets預設是100。統計直方圖的資訊儲存在資料字典表‘‘column_statistcs’’中,可以通過檢視information_schema.COLUMN_STATISTICS訪問。直方圖以靈活的JSON的格式儲存。ANALYZE TABLE會基於表大小自動判斷是否要進行取樣操作。ANALYZE TABLE也會基於表中列的資料分佈情況以及bucket的數量來決定是否要建立等寬直方圖(singleton)還是等高直方圖(equi-height)。
什麼是直方圖
資料庫中,查詢優化器負責將SQL轉換成最有效的執行計劃。有時候,查詢優化器會走不到最優的執行計劃,導致花費了更多不必要的時間。造成這種情況的主要原因是,查詢優化器有時無法準確的知道以下幾個問題的答案:
- 每個表有多少行?
- 每一列有多少不同的值?
- 每一列的資料分佈情況?
舉例說明:一張簡單的表,兩個欄位,一個欄位是person_id,另一個欄位是time_of_day,表示睡覺時間
CREATE TABLE bedtime (
person_id INT,
time_of_day TIME);對於time_of_day列,大部分人上床時間會在晚上11:00左右。所以下面第一個查詢會比第二個查詢返回更多的行數:
1) SELECT * FROM bedtime WHERE time_of_day BETWEEN "22:00:00" AND "23:59:00"
2) SELECT * FROM bedtime WHERE time_of_day BETWEEN "12:00:00" AND "14:00:00"如果沒有統計資料,優化器會假設time_of_day的值是均勻分配的,即一個人的上床時間在下午3點和晚上11點的概率差不多。如何才能使查詢優化器知道資料的分佈情況?一個解決方法就是在列上建立統計直方圖。
直方圖能近似獲得一列的資料分佈情況,從而讓資料庫知道它含有哪些資料。直方圖有多種形式,MySQL支援了兩種:等寬直方圖(singleton)、等高直方圖(equi-height)。直方圖的共同點是,它們都將資料分到了一系列的buckets中去。MySQL會自動將資料劃到不同的buckets中,也會自動決定建立哪種型別的直方圖。
如何建立和刪除統計直方圖
為了管理統計直方圖,ANALYZE TABLE命令新增了兩個子句:
ANALYZE TABLE tbl_name UPDATE HISTOGRAM ON col_name [, col_name] WITH N BUCKETS;
ANALYZE TABLE tbl_name DROP HISTOGRAM ON col_name [, col_name];第一個表示一次可以為一個或多個列建立統計直方圖:
mysql> ANALYZE TABLE payment UPDATE HISTOGRAM ON amount WITH 32 BUCKETS;
+----------------+-----------+----------+---------------------------------------------------+
| Table | Op | Msg_type | Msg_text |
+----------------+-----------+----------+---------------------------------------------------+
| sakila.payment | histogram | status | Histogram statistics created for column 'amount'. |
+----------------+-----------+----------+---------------------------------------------------+
1 row in set (0.27 sec)
mysql> ANALYZE TABLE payment UPDATE HISTOGRAM ON amount, payment_date WITH 32 BUCKETS;
+----------------+-----------+----------+---------------------------------------------------------+
| Table | Op | Msg_type | Msg_text |
+----------------+-----------+----------+---------------------------------------------------------+
| sakila.payment | histogram | status | Histogram statistics created for column 'amount'. |
| sakila.payment | histogram | status | Histogram statistics created for column 'payment_date'. |
+----------------+-----------+----------+---------------------------------------------------------+buckets的值必須指定,可以設定為1到1024,預設值是100。
對於不同的資料集合,buckets的值取決於以下幾個因素:
- 這列有多少不同的值
- 資料的分佈情況
- 需要多高的準確性
但是,某些buckets的值能提升的關於資料分佈情況的準確性相當低。所以,建議的做法是,開始的時候將buckets的值設的低一點,比如32,然後如果沒有滿足期望,再往上增大。
上面這個例子中,我們對於amount列建立了兩次直方圖。第一個語句,建立了一個新的直方圖;第二個語句,amount列的直方圖被重寫了。
如果需要刪除已經建立的直方圖,用DROP HISTOGRAM就可以實現:
mysql> ANALYZE TABLE payment DROP HISTOGRAM ON payment_date;
+----------------+-----------+----------+---------------------------------------------------------+
| Table | Op | Msg_type | Msg_text |
+----------------+-----------+----------+---------------------------------------------------------+
| sakila.payment | histogram | status | Histogram statistics removed for column 'payment_date'. |
+----------------+-----------+----------+---------------------------------------------------------+UPDATE HISTOGRAM可以一次性為多個列建立直方圖。如果命令中間寫錯,ANALYZE TABLE仍然會起作用。比如,你指定了三列,但第二列不存在。MySQL仍然會為第一列和第三列建立直方圖。
mysql> ANALYZE TABLE customer UPDATE HISTOGRAM ON c_birth_day, c_foobar, c_birth_month WITH 32 BUCKETS;
+----------------+-----------+----------+----------------------------------------------------------+
| Table | Op | Msg_type | Msg_text |
+----------------+-----------+----------+----------------------------------------------------------+
| tpcds.customer | histogram | status | Histogram statistics created for column 'c_birth_day'. |
| tpcds.customer | histogram | status | Histogram statistics created for column 'c_birth_month'. |
| tpcds.customer | histogram | Error | The column 'c_foobar' does not exist. |
+----------------+-----------+----------+----------------------------------------------------------+
3 rows in set (0.15 sec)資料庫內部發生了什麼
當你讀過MySQL手冊,你可能已經注意到新的系統變數histogram_generation_max_mem_size。當用戶建立統計直方圖,這個值是用來控制大約多少記憶體能允許被使用。那麼,為什麼要控制這個呢?
當你在建立直方圖的時候,MySQL server會將所有資料讀到記憶體中,然後在記憶體中進行操作,包括排序。如果對一個很大的表建立直方圖,可能會有風險將幾百M的資料都讀到記憶體中,但這是不明智的。為了規避這個風險,MySQL會根據給定的histogram_generation_max_mem_size的值計算該將多少行資料讀到記憶體中。如果根據當前histogram_generation_max_mem_size的限制,MySQL認為只能讀一部分資料,那麼MySQL會進行取樣。通過“sampling-rate”屬性,可以觀察到取樣比率。
mysql> SET histogram_generation_max_mem_size = 1000000;
Query OK, 0 rows affected (0.00 sec)
mysql> ANALYZE TABLE customer UPDATE HISTOGRAM ON c_birth_country WITH 16 BUCKETS;
+----------------+-----------+----------+------------------------------------------------------------+
| Table | Op | Msg_type | Msg_text |
+----------------+-----------+----------+------------------------------------------------------------+
| tpcds.customer | histogram | status | Histogram statistics created for column 'c_birth_country'. |
+----------------+-----------+----------+------------------------------------------------------------+
1 row in set (0.22 sec)
mysql> SELECT histogram->>'$."sampling-rate"'
-> FROM information_schema.column_statistics
-> WHERE table_name = "customer"
-> AND column_name = "c_birth_country";
+---------------------------------+
| histogram->>'$."sampling-rate"' |
+---------------------------------+
| 0.048743243211626014 |
+---------------------------------+
1 row in set (0.00 sec)優化器建立了一個直方圖,大約讀了c_birth_country列4.8%的資料。取樣是不確定的,因此意義不大。同樣的資料,同樣的兩條語句‘‘ANALYZE TABLE tbl UPDATE HISTOGRAM …’’,如果用了取樣,得到的直方圖可能就不一樣。
查詢案例
統計直方圖可以帶來些什麼?我們可以看個例子,這個例子中用了直方圖,在執行時間上會有很大的不同。
環境:
- TPC-DS Benchmark with scale factor of 1
- Intel Core i7-4770
- Debian Stretch
- MySQL 8.0 RC1
- innodb_buffer_pool_size = 2G
- optimizer_switch = “condition_fanout_filter=on”
Query 90
查詢如下:上午售賣的數量與晚上售賣的數量的比率。
mysql> SELECT CAST(amc AS DECIMAL(15, 4)) / CAST(pmc AS DECIMAL(15, 4)) am_pm_ratio
-> FROM (SELECT COUNT(*) amc
-> FROM web_sales,
-> household_demographics,
-> time_dim,
-> web_page
-> WHERE ws_sold_time_sk = time_dim.t_time_sk
-> AND ws_ship_hdemo_sk = household_demographics.hd_demo_sk
-> AND ws_web_page_sk = web_page.wp_web_page_sk
-> AND time_dim.t_hour BETWEEN 9 AND 9 + 1
-> AND household_demographics.hd_dep_count = 2
-> AND web_page.wp_char_count BETWEEN 5000 AND 5200) at,
-> (SELECT COUNT(*) pmc
-> FROM web_sales,
-> household_demographics,
-> time_dim,
-> web_page
-> WHERE ws_sold_time_sk = time_dim.t_time_sk
-> AND ws_ship_hdemo_sk = household_demographics.hd_demo_sk
-> AND ws_web_page_sk = web_page.wp_web_page_sk
-> AND time_dim.t_hour BETWEEN 15 AND 15 + 1
-> AND household_demographics.hd_dep_count = 2
-> AND web_page.wp_char_count BETWEEN 5000 AND 5200) pt
-> ORDER BY am_pm_ratio
-> LIMIT 100;
+-------------+
| am_pm_ratio |
+-------------+
| 1.27619048 |
+-------------+
1 row in set (1.48 sec)可以看到,查詢花費了1.5秒左右。看起來不算多,但是通過在一列上建立直方圖,可以讓執行速度快三倍。
mysql> ANALYZE TABLE web_page UPDATE HISTOGRAM ON wp_char_count WITH 8 BUCKETS;
+----------------+-----------+----------+----------------------------------------------------------+
| Table | Op | Msg_type | Msg_text |
+----------------+-----------+----------+----------------------------------------------------------+
| tpcds.web_page | histogram | status | Histogram statistics created for column 'wp_char_count'. |
+----------------+-----------+----------+----------------------------------------------------------+
1 row in set (0.06 sec)
mysql> SELECT ...
+-------------+
| am_pm_ratio |
+-------------+
| 1.27619048 |
+-------------+
1 row in set (0.50 sec)通過這個直方圖,查詢花費了0.5秒左右。原因呢?主要的原因是,查詢語句中的謂詞“web_page.wp_char_count BETWEEN 5000 AND 5200”。沒有直方圖的時候,優化器會假設web_page表中符合謂詞“web_page.wp_char_count BETWEEN 5000 AND 5200”的資料佔到總資料11.11%左右。但,這是錯誤的。用下面的查詢語句,可以看到實際上滿足條件的資料只有1.6%。
mysql> SELECT
-> (SELECT COUNT(*) FROM web_page WHERE web_page.wp_char_count BETWEEN 5000 AND 5200)
-> /
-> (SELECT COUNT(*) FROM web_page) AS ratio;
+--------+
| ratio |
+--------+
| 0.0167 |
+--------+
1 row in set (0.00 sec)通過直方圖,優化器會知道這個資訊,並且更早進行表join,因此執行時間快了三倍。
Query 61
查詢如下:在給定的年份和月份,有和沒有廣告宣傳的情況下貨物的售賣比率。
mysql> SELECT promotions, -> total,
-> CAST(promotions AS DECIMAL(15, 4)) / CAST(total AS DECIMAL(15, 4)) * 100
-> FROM (SELECT SUM(ss_ext_sales_price) promotions
-> FROM store_sales,
-> store,
-> promotion,
-> date_dim,
-> customer,
-> customer_address,
-> item
-> WHERE ss_sold_date_sk = d_date_sk
-> AND ss_store_sk = s_store_sk
-> AND ss_promo_sk = p_promo_sk
-> AND ss_customer_sk = c_customer_sk
-> AND ca_address_sk = c_current_addr_sk
-> AND ss_item_sk = i_item_sk
-> AND ca_gmt_offset = -5
-> AND i_category = 'Home'
-> AND ( p_channel_dmail = 'Y'
-> OR p_channel_email = 'Y'
-> OR p_channel_tv = 'Y' )
-> AND s_gmt_offset = -5
-> AND d_year = 2000
-> AND d_moy = 12) promotional_sales,
-> (SELECT SUM(ss_ext_sales_price) total
-> FROM store_sales,
-> store,
-> date_dim,
-> customer,
-> customer_address,
-> item
-> WHERE ss_sold_date_sk = d_date_sk
-> AND ss_store_sk = s_store_sk
-> AND ss_customer_sk = c_customer_sk
-> AND ca_address_sk = c_current_addr_sk
-> AND ss_item_sk = i_item_sk
-> AND ca_gmt_offset = -5
-> AND i_category = 'Home'
-> AND s_gmt_offset = -5
-> AND d_year = 2000
-> AND d_moy = 12) all_sales
-> ORDER BY promotions,
-> total
-> LIMIT 100;
+------------+------------+--------------------------------------------------------------------------+
| promotions | total | CAST(promotions AS DECIMAL(15, 4)) / CAST(total AS DECIMAL(15, 4)) * 100 |
+------------+------------+--------------------------------------------------------------------------+
| 3213210.07 | 5966836.78 | 53.85114741 |
+------------+------------+--------------------------------------------------------------------------+
1 row in set (2.78 sec)可以看到,查詢花費了2.8秒左右。但是,查詢優化器不知道s_gmt_offset列只有一個不同的值。沒有統計資料的情況下,優化器會用所謂的“hard-coded guesstimates”,會假設10%的資料符合條件“ca_gmt_offset = -5“。如果在這個列上增加一個直方圖,優化器會知道所有的資料都符合條件,因此會走一個更好的執行計劃。
mysql> ANALYZE TABLE store UPDATE HISTOGRAM ON s_gmt_offset WITH 8 BUCKETS;
+-------------+-----------+----------+---------------------------------------------------------+
| Table | Op | Msg_type | Msg_text |
+-------------+-----------+----------+---------------------------------------------------------+
| tpcds.store | histogram | status | Histogram statistics created for column 's_gmt_offset'. |
+-------------+-----------+----------+---------------------------------------------------------+
1 row in set (0.06 sec)
mysql> SELECT ...
+------------+------------+--------------------------------------------------------------------------+
| promotions | total | CAST(promotions AS DECIMAL(15, 4)) / CAST(total AS DECIMAL(15, 4)) * 100 |
+------------+------------+--------------------------------------------------------------------------+
| 3213210.07 | 5966836.78 | 53.85114741 |
+------------+------------+--------------------------------------------------------------------------+
1 row in set (1.37 sec)有了直方圖,查詢花了不到1.4秒,差不多提升了2倍。原因是:
- 第一個執行計劃,優化器選擇了第一個派生表在store表上做了全表掃描,然後對錶item, store_sales, date_dim, customer,customer_address分別做了主鍵查詢。
- 但是,當MySQL意識到store表會比它猜測的返回更多的資料時,優化器會在item表上做全表掃描,然後對store_sales, store, date_dim, customer,customer_address 分別做主鍵查詢。
為什麼不用索引?
索引往往也能做上述工作,比如:
mysql> CREATE INDEX s_gmt_offset_idx ON store (s_gmt_offset);
Query OK, 0 rows affected (0.53 sec)
Records: 0 Duplicates: 0 Warnings: 0
mysql> SELECT ...
+------------+------------+--------------------------------------------------------------------------+
| promotions | total | CAST(promotions AS DECIMAL(15, 4)) / CAST(total AS DECIMAL(15, 4)) * 100 |
+------------+------------+--------------------------------------------------------------------------+
| 3213210.07 | 5966836.78 | 53.85114741 |
+------------+------------+--------------------------------------------------------------------------+
1 row in set (1.41 sec)但是,用直方圖而不是索引有以下兩個原因:
- 維護一個索引有代價。每一次的insert、update、delete都會需要更新索引,會對效能有一定的影響。而直方圖一次建立永不更新,除非明確去更新它。所以不會影響insert、update、delete的效能。
- 如果有索引,優化器用使用index dives技術來估算符合條件範圍的記錄數量。這種方式也是有代價的,特別是查詢語句條件中有很長的IN列表。直方圖相對而言代價小,因此可能更合適。
檢索統計直方圖
統計直方圖以JSON的形式存在資料字典中。可以用內建的JSON函式built-in JSON functions從直方圖獲取一些資訊。舉例來說,如果需要知道amount列的直方圖的建立或者更新時間,可以用JSON unquoting extraction operator來獲取資訊:
mysql> SELECT
-> HISTOGRAM->>'$."last-updated"' AS last_updated
-> FROM INFORMATION_SCHEMA.COLUMN_STATISTICS
-> WHERE
-> SCHEMA_NAME = "sakila"
-> AND TABLE_NAME = "payment"
-> AND COLUMN_NAME = "amount";
+----------------------------+
| last_updated |
+----------------------------+
| 2017-09-15 11:54:25.000000 |
+----------------------------+如果要查詢實際有多少個buckets,以及用analyze table時指定了多少個buckets,可以如下:
mysql> SELECT
-> TABLE_NAME,
-> COLUMN_NAME,
-> HISTOGRAM->>'$."number-of-buckets-specified"' AS num_buckets_specified,
-> JSON_LENGTH(HISTOGRAM, '$.buckets') AS num_buckets_created
-> FROM INFORMATION_SCHEMA.COLUMN_STATISTICS
-> WHERE
-> SCHEMA_NAME = "sakila";
+------------+--------------+-----------------------+---------------------+
| TABLE_NAME | COLUMN_NAME | num_buckets_specified | num_buckets_created |
+------------+--------------+-----------------------+---------------------+
| payment | amount | 32 | 19 |
| payment | payment_date | 32 | 32 |
+------------+--------------+-----------------------+---------------------+經測試,num_buckets_created與欄位的distinct值很接近,近似相等;但是num_buckets_created不會大於num_buckets_specified。如果num_buckets_created與num_buckets_specified相等,那麼存在可能,在建立直方圖的時候指定的buckets不夠多,那麼此時可以通過增加buckets的數量,來提高直方圖的準確性。
buckets可以設定為1到1024
優化器trace
如果你想要知道直方圖做了什麼,最簡單的方式就是看一下執行計劃:
mysql> EXPLAIN SELECT * FROM customer WHERE c_birth_day BETWEEN 1 AND 10;
+----+-------------+----------+------------+------+---------------+------+---------+------+-------+----------+-------------+
| id | select_type | table | partitions | type | possible_keys | key | key_len | ref | rows | filtered | Extra |
+----+-------------+----------+------------+------+---------------+------+---------+------+-------+----------+-------------+
| 1 | SIMPLE | customer | NULL | ALL | NULL | NULL | NULL | NULL | 98633 | 11.11 | Using where |
+----+-------------+----------+------------+------+---------------+------+---------+------+-------+----------+-------------+
1 row in set, 1 warning (0.00 sec)
mysql> ANALYZE TABLE customer UPDATE HISTOGRAM ON c_birth_day WITH 32 BUCKETS;
+----------------+-----------+----------+--------------------------------------------------------+
| Table | Op | Msg_type | Msg_text |
+----------------+-----------+----------+--------------------------------------------------------+
| tpcds.customer | histogram | status | Histogram statistics created for column 'c_birth_day'. |
+----------------+-----------+----------+--------------------------------------------------------+
1 row in set (0.10 sec)
mysql> EXPLAIN SELECT * FROM customer WHERE c_birth_day BETWEEN 1 AND 10;
+----+-------------+----------+------------+------+---------------+------+---------+------+-------+----------+-------------+
| id | select_type | table | partitions | type | possible_keys | key | key_len | ref | rows | filtered | Extra |
+----+-------------+----------+------------+------+---------------+------+---------+------+-------+----------+-------------+
| 1 | SIMPLE | customer | NULL | ALL | NULL | NULL | NULL | NULL | 98633 | 32.12 | Using where |
+----+-------------+----------+------------+------+---------------+------+---------+------+-------+----------+-------------+
1 row in set, 1 warning (0.00 sec)可以看到filtered列,從預設的11.11%變成了更精確的32.12%。但是,如果有多個條件,有些有直方圖,有些沒有,就比較難判斷優化器做了什麼改進:
mysql> EXPLAIN SELECT * FROM customer WHERE c_birth_day <= 20 AND c_birth_year = 1967;
+----+-------------+----------+------------+------+---------------+------+---------+------+-------+----------+-------------+
| id | select_type | table | partitions | type | possible_keys | key | key_len | ref | rows | filtered | Extra |
+----+-------------+----------+------------+------+---------------+------+---------+------+-------+----------+-------------+
| 1 | SIMPLE | customer | NULL | ALL | NULL | NULL | NULL | NULL | 98633 | 6.38 | Using where |
+----+-------------+----------+------------+------+---------------+------+---------+------+-------+----------+-------------+
1 row in set, 1 warning (0.00 sec)如果想要知道更多關於直方圖統計的細節,可以使用trace:
mysql> SET OPTIMIZER_TRACE = "enabled=on";
Query OK, 0 rows affected (0.00 sec)
mysql> SET OPTIMIZER_TRACE_MAX_MEM_SIZE = 1000000;
Query OK, 0 rows affected (0.00 sec)
mysql> EXPLAIN SELECT * FROM customer WHERE c_birth_day <= 20 AND c_birth_year = 1967;
mysql> SELECT JSON_EXTRACT(TRACE, "$**.filtering_effect") FROM INFORMATION_SCHEMA.OPTIMIZER_TRACE;
+----------------------------------------------------------------------------------------+
| JSON_EXTRACT(TRACE, "$**.filtering_effect") |
+----------------------------------------------------------------------------------------+
| [[{"condition": "(`customer`.`c_birth_day` <= 20)", "histogram_selectivity": 0.6376}]] |
+----------------------------------------------------------------------------------------+
1 row in set (0.00 sec)這裡用了JSON_EXTRACT從trace裡取出相關的部分。對於每個條件,直方圖被使用的話,就會看到估算過的欄位的選擇性。在這個例子裡,通過直方圖,對“c_birth_day <= 20”條件,估算出63.76%的資料滿足條件。事實上,與實際的資料分佈情況基本一致:
mysql> SELECT
-> (SELECT count(*) FROM customer WHERE c_birth_day <= 20)
-> /
-> (SELECT COUNT(*) FROM customer) AS ratio;
+--------+
| ratio |
+--------+
| 0.6376 |
+--------+
1 row in set (0.03 sec)原文:https://mysqlserverteam.com/histogram-statistics-in-mysql/