之前同事发过一个语句,实现的功能比较简单,类似group by的分组计数功能,因为where条件有like,又无法用group by来实现。SELECT a.N0,b.N1,c.N2,d.N3,e.N4,f.N5,g.N6,h.N7,i.N8,j.N9 from (select count(*) N0 from tbl_loginfo_20141110 where keyrecord
之前同事发过一个语句,实现的功能比较简单,类似group by的分组计数功能,因为where条件有like,又无法用group by来实现。
SELECT a.N0,b.N1,c.N2,d.N3,e.N4,f.N5,g.N6,h.N7,i.N8,j.N9 from
(select count(*) N0 from tbl_loginfo_20141110 where keyrecord like '0%' or keyrecord like 'GJ_0%') a,
(select count(*) N1 from tbl_loginfo_20141110 where keyrecord like '1%' or keyrecord like 'GJ_1%') b,
(select count(*) N2 from tbl_loginfo_20141110 where keyrecord like '2%' or keyrecord like 'GJ_2%') c,
(select count(*) N3 from tbl_loginfo_20141110 where keyrecord like '3%' or keyrecord like 'GJ_3%') d,
(select count(*) N4 from tbl_loginfo_20141110 where keyrecord like '4%' or keyrecord like 'GJ_4%') e,
(select count(*) N5 from tbl_loginfo_20141110 where keyrecord like '5%' or keyrecord like 'GJ_5%') f,
(select count(*) N6 from tbl_loginfo_20141110 where keyrecord like '6%' or keyrecord like 'GJ_6%') g,
(select count(*) N7 from tbl_loginfo_20141110 where keyrecord like '7%' or keyrecord like 'GJ_7%') h,
(select count(*) N8 from tbl_loginfo_20141110 where keyrecord like '8%' or keyrecord like 'GJ_8%') i,
(select count(*) N9 from tbl_loginfo_20141110 where keyrecord like '9%' or keyrecord like 'GJ_9%') j;
为了了解语句的性能,我做了如下类似的测试:
select * from v$version; --Oracle Database 11g Enterprise Edition Release 11.2.0.1.0 - Production
drop table a;
create table a as select * from dba_objects where rownum<=50000;
begin
for x in 1..6 loop
insert into a select * from a;
end loop;
commit;
end;
select count(*) from a; --3200000
select bytes/1024/1024 from user_segments where segment_name='A'; --357M
alter system flush shared_pool;
alter system flush buffer_cache;
SELECT a.N0,b.N1,c.N2,d.N3,e.N4,f.N5,g.N6,h.N7,i.N8,j.N9 from
(select count(*) N0 from a where object_name like 'A%' or object_name like 'V%') a,
(select count(*) N1 from a where object_name like 'B%' or object_name like 'V%') b,
(select count(*) N2 from a where object_name like 'C%' or object_name like 'V%') c,
(select count(*) N3 from a where object_name like 'D%' or object_name like 'V%') d,
(select count(*) N4 from a where object_name like 'E%' or object_name like 'V%') e,
(select count(*) N5 from a where object_name like 'F%' or object_name like 'V%') f,
(select count(*) N6 from a where object_name like 'G%' or object_name like 'V%') g,
(select count(*) N7 from a where object_name like 'H%' or object_name like 'V%') h,
(select count(*) N8 from a where object_name like 'I%' or object_name like 'V%') i,
(select count(*) N9 from a where object_name like 'J%' or object_name like 'V%') j;
--58s
alter system flush shared_pool;
alter system flush buffer_cache;
--改写后
select
sum(case when object_name like 'A%' or object_name like 'V%' then 1 else 0 end) N0,
sum(case when object_name like 'B%' or object_name like 'V%' then 1 else 0 end) N1,
sum(case when object_name like 'C%' or object_name like 'V%' then 1 else 0 end) N2,
sum(case when object_name like 'D%' or object_name like 'V%' then 1 else 0 end) N3,
sum(case when object_name like 'E%' or object_name like 'V%' then 1 else 0 end) N4,
sum(case when object_name like 'F%' or object_name like 'V%' then 1 else 0 end) N5,
sum(case when object_name like 'G%' or object_name like 'V%' then 1 else 0 end) N6,
sum(case when object_name like 'H%' or object_name like 'V%' then 1 else 0 end) N7,
sum(case when object_name like 'I%' or object_name like 'V%' then 1 else 0 end) N8,
sum(case when object_name like 'J%' or object_name like 'V%' then 1 else 0 end) N9
from a;
--19s
--对比执行计划:
--前者执行计划:
SQL> explain plan for
2 SELECT a.N0,b.N1,c.N2,d.N3,e.N4,f.N5,g.N6,h.N7,i.N8,j.N9 from
3 (select count(*) N0 from a where object_name like 'A%' or object_name like 'V%') a,
4 (select count(*) N1 from a where object_name like 'B%' or object_name like 'V%') b,
5 (select count(*) N2 from a where object_name like 'C%' or object_name like 'V%') c,
6 (select count(*) N3 from a where object_name like 'D%' or object_name like 'V%') d,
7 (select count(*) N4 from a where object_name like 'E%' or object_name like 'V%') e,
8 (select count(*) N5 from a where object_name like 'F%' or object_name like 'V%') f,
9 (select count(*) N6 from a where object_name like 'G%' or object_name like 'V%') g,
10 (select count(*) N7 from a where object_name like 'H%' or object_name like 'V%') h,
11 (select count(*) N8 from a where object_name like 'I%' or object_name like 'V%') i,
12 (select count(*) N9 from a where object_name like 'J%' or object_name like 'V%') j;
Explained.
Elapsed: 00:00:00.15
SQL> @getplan
'general,outline,starts'
Enter value for plan type:
PLAN_TABLE_OUTPUT
-----------------------------------------------------------------------------------------
Plan hash value: 2527411742
-------------------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
-------------------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 130 | 123K (1)| 00:24:46 |
| 1 | NESTED LOOPS | | 1 | 130 | 123K (1)| 00:24:46 |
| 2 | NESTED LOOPS | | 1 | 117 | 111K (1)| 00:22:17 |
| 3 | NESTED LOOPS | | 1 | 104 | 99032 (1)| 00:19:49 |
| 4 | NESTED LOOPS | | 1 | 91 | 86653 (1)| 00:17:20 |
| 5 | NESTED LOOPS | | 1 | 78 | 74274 (1)| 00:14:52 |
| 6 | NESTED LOOPS | | 1 | 65 | 61895 (1)| 00:12:23 |
| 7 | NESTED LOOPS | | 1 | 52 | 49516 (1)| 00:09:55 |
| 8 | NESTED LOOPS | | 1 | 39 | 37137 (1)| 00:07:26 |
| 9 | NESTED LOOPS | | 1 | 26 | 24758 (1)| 00:04:58 |
| 10 | VIEW | | 1 | 13 | 12379 (1)| 00:02:29 |
| 11 | SORT AGGREGATE | | 1 | 66 | | |
|* 12 | TABLE ACCESS FULL| A | 91587 | 5903K| 12379 (1)| 00:02:29 |
| 13 | VIEW | | 1 | 13 | 12379 (1)| 00:02:29 |
| 14 | SORT AGGREGATE | | 1 | 66 | | |
|* 15 | TABLE ACCESS FULL| A | 137K| 8831K| 12379 (1)| 00:02:29 |
| 16 | VIEW | | 1 | 13 | 12379 (1)| 00:02:29 |
| 17 | SORT AGGREGATE | | 1 | 66 | | |
|* 18 | TABLE ACCESS FULL | A | 85818 | 5531K| 12379 (1)| 00:02:29 |
| 19 | VIEW | | 1 | 13 | 12379 (1)| 00:02:29 |
| 20 | SORT AGGREGATE | | 1 | 66 | | |
|* 21 | TABLE ACCESS FULL | A | 111K| 7158K| 12379 (1)| 00:02:29 |
| 22 | VIEW | | 1 | 13 | 12379 (1)| 00:02:29 |
| 23 | SORT AGGREGATE | | 1 | 66 | | |
|* 24 | TABLE ACCESS FULL | A | 86539 | 5577K| 12379 (1)| 00:02:29 |
| 25 | VIEW | | 1 | 13 | 12379 (1)| 00:02:29 |
| 26 | SORT AGGREGATE | | 1 | 66 | | |
|* 27 | TABLE ACCESS FULL | A | 91587 | 5903K| 12379 (1)| 00:02:29 |
| 28 | VIEW | | 1 | 13 | 12379 (1)| 00:02:29 |
| 29 | SORT AGGREGATE | | 1 | 66 | | |
|* 30 | TABLE ACCESS FULL | A | 228K| 14M| 12379 (1)| 00:02:29 |
| 31 | VIEW | | 1 | 13 | 12379 (1)| 00:02:29 |
| 32 | SORT AGGREGATE | | 1 | 66 | | |
|* 33 | TABLE ACCESS FULL | A | 87981 | 5670K| 12379 (1)| 00:02:29 |
| 34 | VIEW | | 1 | 13 | 12379 (1)| 00:02:29 |
| 35 | SORT AGGREGATE | | 1 | 66 | | |
|* 36 | TABLE ACCESS FULL | A | 84376 | 5438K| 12379 (1)| 00:02:29 |
| 37 | VIEW | | 1 | 13 | 12379 (1)| 00:02:29 |
| 38 | SORT AGGREGATE | | 1 | 66 | | |
|* 39 | TABLE ACCESS FULL | A | 112K| 7251K| 12379 (1)| 00:02:29 |
-------------------------------------------------------------------------------------
Predicate Information (identified by operation id):
---------------------------------------------------
12 - filter("OBJECT_NAME" LIKE 'J%' OR "OBJECT_NAME" LIKE 'V%')
15 - filter("OBJECT_NAME" LIKE 'I%' OR "OBJECT_NAME" LIKE 'V%')
18 - filter("OBJECT_NAME" LIKE 'H%' OR "OBJECT_NAME" LIKE 'V%')
21 - filter("OBJECT_NAME" LIKE 'G%' OR "OBJECT_NAME" LIKE 'V%')
24 - filter("OBJECT_NAME" LIKE 'F%' OR "OBJECT_NAME" LIKE 'V%')
27 - filter("OBJECT_NAME" LIKE 'E%' OR "OBJECT_NAME" LIKE 'V%')
30 - filter("OBJECT_NAME" LIKE 'D%' OR "OBJECT_NAME" LIKE 'V%')
33 - filter("OBJECT_NAME" LIKE 'C%' OR "OBJECT_NAME" LIKE 'V%')
36 - filter("OBJECT_NAME" LIKE 'B%' OR "OBJECT_NAME" LIKE 'V%')
39 - filter("OBJECT_NAME" LIKE 'A%' OR "OBJECT_NAME" LIKE 'V%')
--后者执行计划:
SQL> explain plan for
2 select
3 sum(case when object_name like 'A%' or object_name like 'V%' then 1 else 0 end) N0,
4 sum(case when object_name like 'B%' or object_name like 'V%' then 1 else 0 end) N1,
5 sum(case when object_name like 'C%' or object_name like 'V%' then 1 else 0 end) N2,
6 sum(case when object_name like 'D%' or object_name like 'V%' then 1 else 0 end) N3,
7 sum(case when object_name like 'E%' or object_name like 'V%' then 1 else 0 end) N4,
8 sum(case when object_name like 'F%' or object_name like 'V%' then 1 else 0 end) N5,
9 sum(case when object_name like 'G%' or object_name like 'V%' then 1 else 0 end) N6,
10 sum(case when object_name like 'H%' or object_name like 'V%' then 1 else 0 end) N7,
11 sum(case when object_name like 'I%' or object_name like 'V%' then 1 else 0 end) N8,
12 sum(case when object_name like 'J%' or object_name like 'V%' then 1 else 0 end) N9
13 from a;
Explained.
Elapsed: 00:00:00.01
SQL> @getplan
'general,outline,starts'
Enter value for plan type:
PLAN_TABLE_OUTPUT
--------------------------------------------------------------------------------------------
Plan hash value: 3918351354
---------------------------------------------------------------------------
| Id | Operation | Name | Rows | Bytes | Cost (%CPU)| Time |
---------------------------------------------------------------------------
| 0 | SELECT STATEMENT | | 1 | 66 | 12349 (1)| 00:02:29 |
| 1 | SORT AGGREGATE | | 1 | 66 | | |
| 2 | TABLE ACCESS FULL| A | 3097K| 194M| 12349 (1)| 00:02:29 |
---------------------------------------------------------------------------
Note
-----
- dynamic sampling used for this statement (level=2)
可以看出,前者10次全表扫描,后者1次全表扫描。从而时间上也大大降低了。由58s降低到19s。
优化这个sql主要还是思路的转换,难点在于怎样把10次全表扫描转化成1次全表扫描。
在OLAP中,可以加并行使sql速度更快。
陳述
本文內容由網友自願投稿,版權歸原作者所有。本站不承擔相應的法律責任。如發現涉嫌抄襲或侵權的內容,請聯絡admin@php.cn
如何識別和優化MySQL中的慢速查詢? (慢查詢日誌,performance_schema)Apr 10, 2025 am 09:36 AM要優化MySQL慢查詢,需使用slowquerylog和performance_schema:1.啟用slowquerylog並設置閾值,記錄慢查詢;2.利用performance_schema分析查詢執行細節,找出性能瓶頸並優化。
MySQL和SQL:開發人員的基本技能Apr 10, 2025 am 09:30 AMMySQL和SQL是開發者必備技能。 1.MySQL是開源的關係型數據庫管理系統,SQL是用於管理和操作數據庫的標準語言。 2.MySQL通過高效的數據存儲和檢索功能支持多種存儲引擎,SQL通過簡單語句完成複雜數據操作。 3.使用示例包括基本查詢和高級查詢,如按條件過濾和排序。 4.常見錯誤包括語法錯誤和性能問題,可通過檢查SQL語句和使用EXPLAIN命令優化。 5.性能優化技巧包括使用索引、避免全表掃描、優化JOIN操作和提升代碼可讀性。
描述MySQL異步主奴隸複製過程。Apr 10, 2025 am 09:30 AMMySQL異步主從復制通過binlog實現數據同步,提升讀性能和高可用性。 1)主服務器記錄變更到binlog;2)從服務器通過I/O線程讀取binlog;3)從服務器的SQL線程應用binlog同步數據。
mysql:簡單的概念,用於輕鬆學習Apr 10, 2025 am 09:29 AMMySQL是一個開源的關係型數據庫管理系統。 1)創建數據庫和表:使用CREATEDATABASE和CREATETABLE命令。 2)基本操作:INSERT、UPDATE、DELETE和SELECT。 3)高級操作:JOIN、子查詢和事務處理。 4)調試技巧:檢查語法、數據類型和權限。 5)優化建議:使用索引、避免SELECT*和使用事務。
MySQL:數據庫的用戶友好介紹Apr 10, 2025 am 09:27 AMMySQL的安裝和基本操作包括:1.下載並安裝MySQL,設置根用戶密碼;2.使用SQL命令創建數據庫和表,如CREATEDATABASE和CREATETABLE;3.執行CRUD操作,使用INSERT,SELECT,UPDATE,DELETE命令;4.創建索引和存儲過程以優化性能和實現複雜邏輯。通過這些步驟,你可以從零開始構建和管理MySQL數據庫。
InnoDB緩衝池如何工作,為什麼對性能至關重要?Apr 09, 2025 am 12:12 AMInnoDBBufferPool通過將數據和索引頁加載到內存中來提升MySQL數據庫的性能。 1)數據頁加載到BufferPool中,減少磁盤I/O。 2)臟頁被標記並定期刷新到磁盤。 3)LRU算法管理數據頁淘汰。 4)預讀機制提前加載可能需要的數據頁。
MySQL:初學者的數據管理易用性Apr 09, 2025 am 12:07 AMMySQL適合初學者使用,因為它安裝簡單、功能強大且易於管理數據。 1.安裝和配置簡單,適用於多種操作系統。 2.支持基本操作如創建數據庫和表、插入、查詢、更新和刪除數據。 3.提供高級功能如JOIN操作和子查詢。 4.可以通過索引、查詢優化和分錶分區來提升性能。 5.支持備份、恢復和安全措施,確保數據的安全和一致性。
與MySQL中使用索引相比,全表掃描何時可以更快?Apr 09, 2025 am 12:05 AM全表掃描在MySQL中可能比使用索引更快,具體情況包括:1)數據量較小時;2)查詢返回大量數據時;3)索引列不具備高選擇性時;4)複雜查詢時。通過分析查詢計劃、優化索引、避免過度索引和定期維護表,可以在實際應用中做出最優選擇。
熱AI工具
Undresser.AI Undress
人工智慧驅動的應用程序,用於創建逼真的裸體照片
AI Clothes Remover
用於從照片中去除衣服的線上人工智慧工具。
Undress AI Tool
免費脫衣圖片
Clothoff.io
AI脫衣器
AI Hentai Generator
免費產生 AI 無盡。
熱門文章
R.E.P.O.能量晶體解釋及其做什麼(黃色晶體)
3 週前By尊渡假赌尊渡假赌尊渡假赌
R.E.P.O.最佳圖形設置
3 週前By尊渡假赌尊渡假赌尊渡假赌
刺客信條陰影:貝殼謎語解決方案
1 週前ByDDD
R.E.P.O.如果您聽不到任何人,如何修復音頻
3 週前By尊渡假赌尊渡假赌尊渡假赌
WWE 2K25:如何解鎖Myrise中的所有內容
3 週前By尊渡假赌尊渡假赌尊渡假赌
熱工具
PhpStorm Mac 版本
最新(2018.2.1 )專業的PHP整合開發工具
Dreamweaver Mac版
視覺化網頁開發工具
禪工作室 13.0.1
強大的PHP整合開發環境
MantisBT
Mantis是一個易於部署的基於Web的缺陷追蹤工具,用於幫助產品缺陷追蹤。它需要PHP、MySQL和一個Web伺服器。請查看我們的演示和託管服務。
SublimeText3漢化版
中文版,非常好用
