DB2常用SQL的写法(未整理)

UPDATE FROM
update   a   set   aa   =(select   bb   from   b   where   a.cc   =   b.cc)  
  where   exists   (select   b.cc   from   a.cc   =b.cc)  

 

1. 建立数据库DB2_GCB

CREATE DATABASE DB2_GCB ON G: ALIAS DB2_GCB

USING CODESET GBK TERRITORY CN COLLATE USING SYSTEM DFT_EXTENT_SZ 32

2. 连接数据库

connect to sample1 user db2admin using 8301206

3. 建立别名

create alias db2admin.tables for sysstat.tables;

CREATE ALIAS DB2ADMIN.VIEWS FOR SYSCAT.VIEWS

create alias db2admin.columns for syscat.columns;

create alias guest.columns for syscat.columns;

4. 建立表

create table zjt_tables as

(select * from tables) definition only;

create table zjt_views as

(select * from views) definition only;

5. 插入记录

insert into zjt_tables select * from tables;

insert into zjt_views select * from views;

6. 建立视图

create view V_zjt_tables as select tabschema,tabname from zjt_tables;

7. 建立触发器

CREATE TRIGGER zjt_tables_del

AFTER DELETE ON zjt_tables

REFERENCING OLD AS O

FOR EACH ROW MODE DB2SQL

Insert into zjt_tables1 values(substr(o.tabschema,1,8),substr(o.tabname,1,10))

8. 建立唯一性索引

CREATE UNIQUE INDEX I_ztables_tabname

[size=3]ON zjt_tables(tabname);

9. 查看表

select tabname from tables

where tabname=‘ZJT_TABLES‘;

10. 查看列

select SUBSTR(COLNAME,1,20) as 列名,TYPENAME as 类型,LENGTH as 长度

from columns

where tabname=‘ZJT_TABLES‘;

11. 查看表结构

db2 describe table user1.department

db2 describe select * from user.tables

12. 查看表的索引

db2 describe indexes for table user1.department

13. 查看视图

select viewname from views

where viewname=‘V_ZJT_TABLES‘;

14. 查看索引

select indname from indexes

where indname=‘I_ZTABLES_TABNAME‘;

15. 查看存贮过程

SELECT SUBSTR(PROCSCHEMA,1,15),SUBSTR(PROCNAME,1,15)

FROM SYSCAT.PROCEDURES;

16. 类型转换(cast)

ip datatype:varchar

select cast(ip as integer)+50 from log_comm_failed

17. 重新连接

connect reset

18. 中断数据库连接

disconnect db2_gcb

19. view application

LIST APPLICATION;

20. kill application

FORCE APPLICATION(0);

db2 force applications all (强迫所有应用程序从数据库断开)

21. lock table

lock table test in exclusive mode

22. 共享

lock table test in share mode

23. 显示当前用户所有表

list tables

24. 列出所有的系统表

list tables for system

25. 显示当前活动数据库

list active databases

26. 查看命令选项

list command options

27. 系统数据库目录

LIST DATABASE DIRECTORY

28. 表空间

list tablespaces

29. 表空间容器

LIST TABLESPACE CONTAINERS FOR

Example: LIST TABLESPACE CONTAINERS FOR 1

30. 显示用户数据库的存取权限

GET AUTHORIZATIONS



 

1. 启动实例(db2inst1):

db2start

2. 停止实例(db2inst1):

db2stop

3. 列出所有实例(db2inst1)

db2ilist

5.列出当前实例:

db2 get instance

4. 察看示例配置文件:

db2 get dbm cfg|more

5. 更新数据库管理器参数信息:

db2 update dbm cfg using para_name para_value

6. 创建数据库:

db2 create db test

7. 察看数据库配置参数信息

db2 get db cfg for test|more

8. 更新数据库参数配置信息

db2 update db cfg for test using para_name para_value

10.删除数据库:

db2 drop db test

11.连接数据库

db2 connect to test

12.列出所有表空间的详细信息。

db2 list tablespaces show detail

13.查询数据:

db2 select * from tb1

14.数据:

db2 delete from tb1 where id=1

15.创建索引:

db2 create index idx1 on tb1(id);

16.创建视图:

db2 create view view1 as select id from tb1

17.查询视图:

db2 select * from view1

18.节点编目

db2 catalog tcp node node_name remote server_ip server server_port

19.察看端口号

db2 get dbm cfg|grep SVCENAME

20.测试节点的附接

db2 attach to node_name

21.察看本地节点

db2 list node direcotry

22.节点反编目

db2 uncatalog node node_name

23.数据库编目

db2 catalog db db_name as db_alias at node node_name

24.察看数据库的编目

db2 list db directory

25.连接数据库

db2 connect to db_alias user user_name using user_password

26.数据库反编目

db2 uncatalog db db_alias

27.导出数据

db2 export to myfile of ixf messages msg select * from tb1

28.导入数据

db2 import from myfile of ixf messages msg replace into tb1

29.导出数据库的所有表数据

db2move test export

30.生成数据库的定义

db2look -d db_alias -a -e -m -l -x -f -o db2look.sql

31.创建数据库

db2 create db test1

32.生成定义

db2 -tvf db2look.sql

33.导入数据库所有的数据

db2move db_alias import

34.重组检查

db2 reorgchk

35.重组表tb1

db2 reorg table tb1

36.更新统计信息

db2 runstats on table tb1

37.备份数据库test

db2 backup db test

38.恢复数据库test

db2 restore db test

399\.列出容器的信息

db2 list tablespace containers for tbs_id show detail

40.创建表:

db2 ceate table tb1(id integer not null,name char(10))

41.列出所有表

db2 list tables

42.插入数据:

db2 insert into tb1 values(1,’sam’);

db2 insert into tb2 values(2,’smitty’);

 

-- 创建一个自定义单值类型
create   distinct type var_newtype
as decimal(5,2) with comparisons;

-- var_newtype 类型名
-- decimal(5,2) 实际的类型

-- 删除一个自定义单值类型
drop distinct type var_newtype;


-- 创建一个自定义结构数据类型
create type my_type as(
username varchar(20),
department integer,
salary decimal(10,2))
not final
mode db2sql;


-- 修改自定义结构数据类型,我目前还没有发现删除属性的方法.
alter type my_type
add attribute hiredate date;


-- 删除自定义结构数据类型

drop type my_type;


-- 获取系统当前日期
select current date from sysibm.sysdummy1;
select current time from sysibm.sysdummy1;
select current timestamp from sysibm.sysdummy1;


--sysibm.sysdummy1表是一个特殊的内存中的表,用它可以发现如上面演示的 DB2 寄存器的值。您也可以使用关键字 VALUES 来对寄存器或表达式求值。
VALUES current date;
VALUES current time;
VALUES current timestamp;

-- VALUES的更多用法

VALUES 2+5;

VALUES ‘hello lavasoft!‘;

values 56
union all
values 45;

values 1,2,3,4,5,6
union all
values 7,8,9,10,11,12
order by 1;

-- 更多变态级DB2 SQL写法,AnyOneTable表示任意一个存在的表

select 234 from AnyOneTable;
select distinct 234 from AnyOneTable;
select distinct 234 as 1 from AnyOneTable;

select ‘DB2变态级的SQL哈哈‘ from AnyOneTable;
select distinct ‘DB2变态级的SQL哈哈‘ from AnyOneTable;
select distinct ‘DB2变态级的SQL哈哈‘ as 1 from AnyOneTable;

     --(嘿嘿,好玩吧,你可以用任意一个表来当sysibm.sysdummy1用.不过不推荐这么做,除非你不记得sysibm.sysdummy1怎么写了,Oracle中(对应dual)也一样!哈哈哈哈!)


-- 定义变量,还可以设定默认值,给变量赋值

declare var1 char(2);
declare var2 int default 0;

set var1 = ‘aa‘;
set var2 =23;


--创建一个动态游标变量
declare d_cur integer;


-- 给变量赋值的另一种方法

values expr1, expr2, expr3 into a, b, c;
-- 相当于
set a = expr1;
set b = expr2;
set c = expr3;

-- 还有一种赋值方式

set prodname = (case
                   when (name is not null) then name
                   when (namestr is not null) then namestr
                   else   defaultname
                 end);
-- 相当于
set prodname = coalesce(name, namestr, defaultname);
--这个类似oracle的decode()和nvl()函数的合并.


-- 定义一个游标
declare cur1 cursor with return to client for select * from dm_hy;
declare cur2 cursor for select * from dm_hy; -- 静态游标


-- 创建数据表,并添加注释,插入数据.
CREATE TABLE tbr_catalog (
   id bigint   not null   generated by default as identity,
   type smallint not null,
   name varchar(255),
   parentid bigint,
   cataloglevel bigint,
   description varchar(255),
   PRIMARY KEY   (id)
);
comment on table tbr_catalog is ‘Birt报表目录表‘;
comment on column tbr_catalog.ID is ‘标识‘;
comment on column tbr_catalog.type is ‘目录类型‘;
comment on column tbr_catalog.name is ‘目录名称‘;
comment on column tbr_catalog.parentid is ‘目录父标识‘;
comment on column tbr_catalog.cataloglevel is ‘目录层次‘;
comment on column tbr_catalog.description is ‘目录描述‘;

-- 给数据表插入数据
insert into tbr_catalog(id, type, name, parentid, cataloglevel, description)
values (1, 0, ‘系统报表‘, 0, 0, ‘‘);
insert into tbr_catalog(id, type, name, parentid, cataloglevel, description)
values (2, 1, ‘用户报表‘, 0, 0, ‘‘);

-- 创建外键
alter table tbr_storage
add constraint fk_tbr_storage
foreign key (catalogid)
references tbr_catalog(id);

-- 更改表,添加列
alter table aaa add sex varchar(1);


-- 更改表,删除列
alter table aaa drop column sex;

-- 去掉参数前后的空格
rtrim(dm_hy.mc);


-- 定义临时表,通过已有person表来创建
declare global temporary table gbl_temp
like person
on commit delete rows --提交时删除数据
not logged -- 不在日志中纪录
in usr_tbsp -- 选用表空间
-- 此语句创建一个名为 gbl_temp 的用户临时表。定义此用户临时表 所使用的列的名称和说明与 person 的列的名称和说明完全相同。

-- 创建有两个字段的临时表  
     -- 定义一个全局临时表tmp_hy
declare global temporary table session.tmp_hy
     (
        dm varchar(10),
        mc varchar(10)         
     )
      with replace -- 如果存在此临时表,则替换
      not logged;   -- 不在日志里纪录

     -- 给临时表插入三条数据
     insert into session.tmp_hy values(‘1‘,‘1‘);
     insert into session.tmp_hy values(‘1‘,‘1‘);
     insert into session.tmp_hy values(‘1‘,‘1‘);

-- 通过查询批量插入数据

inster into tab_bk(select code,name from table book);

-- select ... into的用法

select * into :h1, :h2, :h3, :h4
      from emp
      where empno = ‘528671‘;


-- 语句的流程控制

if() then
open cur1
fetch cur1 into t_equipid;
while(at_end<>1)do
   ......
set t_temp=0;                                                            
end while;
close cur1;
else
......
end if;


-- 外连接

select empno,deptname,projname
   from (emplyoee
   left outer join project
   on respemp=empon)
   left outer join department
   on mgrno=empno;


-- in、like、order by(... ASC|DESC)的用法
select * from book t
where t.name like ‘%J_编程%‘
and t.code in(‘J565333‘,‘J565222‘);

order by t.name asc


-- 汇总表(概念复杂,难以理解,不常用)

create summary table sumy_stable1
   as (select workdept,
     count(*) as reccount,
     sum(salary) as salary,
     sum(bonus) as bonus
   from employee group by workdept)
data initially deferred
refresh immediate;


-- 使用SQL一次处理一个集合语义
-- (优化前) select语句中每行的过程层和数据流层之间都有一个上下文切换
declare cur1 cursor for col1,col2 from tab_comp;
open cur1;
fetch cur1 into v1,v2;
while SQLCODE<> 100 do
if (v1>20) then
   insert into tab_sel values(20,v1);
else
   insert into tab_sel values(v1,v2);
end if;
fetch cur1 into v1,v2;
end while;

-- (优化后)没有过程层和数据流层之间的上下文切换
declare cur1 cursor for col1,col2 from tab_comp;
open cur1;
fetch cur1 into v1,v2;
while SQLCODE<> 100 do
insert into tab_sel(select (case
          when col1>20 then 20
             else col1
         end),
         col2
       from tab_comp);
fetch cur1 into v1,v2;
end while;


-- DB2函数分三类:列函数、标量函数、表函数
-- 列函数输入一组数据,输出单一结果。
-- 标量函数接收一个值,返回另外一个值。
-- 表函数只能用于SQL语句的from字句中,它返回一个表的列,类似于一个已创建的常规表。


-- 下面是个标量函数的例子。
create function (salary int,bonus_percent int)
returns int
language SQL contains SQL
return(
salary * bonus_percent/100
)


-- 下面是表函数
create function get_marks(begin_range int,end_range int)
returns table(cid candidate_id,
        number test_id,
        score score)
language SQL reads SQL DATA
return
     select cid,number,score
     from test_taken
     where salary between (begin_range) and score(end_range)

example 1: define a scalar function that returns the tangent of a value using the existing sine and cosine functions.

    create function tan (x double)
      returns double
      language sql
      contains sql
      no external action
      deterministic
      return sin(x)/cos(x)               

example 2: define a transform function for the structured type person.

     
    create function fromperson (p person)
      returns row (name varchar(10), firstname varchar(10))
      language sql
      contains sql
      no external action
      deterministic
      return values (p..name, p..firstname)

example 3: define a table function that returns the employees in a specified department number.

     
    create function deptemployees (deptno char(3))
      returns table (empno char(6),
                     lastname varchar(15),
                     firstname varchar(12))
      language sql
      reads sql data
      no external action
      deterministic
      return
        select empno, lastname, firstnme
          from employee
          where employee.workdept = deptemployees.deptno

example 4: define a scalar function that reverses a string.

    create function reverse(instr varchar(4000))
      returns varchar(4000)
      deterministic no external action contains sql
      begin atomic
      declare revstr, reststr varchar(4000) default ‘‘;
      declare len int;
      if instr is null then
      return null;
      end if;
      set (reststr, len) = (instr, length(instr));
      while len > 0 do
      set (revstr, reststr, len)
        = (substr(reststr, 1, 1) concat revstr,
        substr(reststr, 2, len - 1),
        len - 1);
      end while;
      return revstr;
    end

example 4: define the table function from example 4 with auditing.

    create function deptemployees (deptno char(3))
      returns table (empno char(6),
                     lastname varchar(15),
                     firstname varchar(12))
      language sql
      modifies sql data
      no external action
      deterministic
      begin atomic
        insert into audit
        values (user,
                ‘table: employee prd: deptno = ‘ concat deptno);
        return
          select empno, lastname, firstnme
            from employee
            where employee.workdept = deptemployees.deptno
      end


-- for循环语句的用法

begin atomic
declare fullname char(40);
for vl as
    select firstnme, midinit, lastname from employee
   do
   set fullname = lastname concat ‘,‘
     concat firstnme concat ‘ ‘ concat midinit;
   insert into tnames values (fullname);
end for
end


-- leave的用法

create procedure leave_loop(out counter integer)
language sql
begin
    declare v_counter integer;
    declare v_firstnme varchar(12);
    declare v_midinit char(1);
    declare v_lastname varchar(15);
    declare at_end smallint default 0;
    declare not_found condition for sqlstate ‘02000‘;
    declare c1 cursor for
   select firstnme, midinit, lastname
     from employee;
    declare continue handler for not_found
   set at_end = 1;
    set v_counter = 0;
    open c1;
    fetch_loop:
    loop
   fetch c1 into v_firstnme, v_midinit, v_lastname;
   if at_end <> 0 then leave fetch_loop;
   end if;
   set v_counter = v_counter + 1;
    end loop fetch_loop;
    set counter = v_counter;
    close c1;
end

-- if语句的用法

    create procedure update_salary_if
      (in employee_number char(6), inout rating smallint)
      language sql
      begin
        declare not_found condition for sqlstate ‘02000‘;
        declare exit handler for not_found
          set rating = -1;
        if rating = 1
          then update employee
          set salary = salary * 1.10, bonus = 1000
          where empno = employee_number;
        elseif rating = 2
          then update employee
          set salary = salary * 1.05, bonus = 500
          where empno = employee_number;
        else update employee
          set salary = salary * 1.03, bonus = 0
          where empno = employee_number;
        end if;
      end


-- loop的用法

    create procedure loop_until_space(out counter integer)
      language sql
      begin
        declare v_counter integer default 0;
        declare v_firstnme varchar(12);
        declare v_midinit char(1);
        declare v_lastname varchar(15);
        declare c1 cursor for
          select firstnme, midinit, lastname
            from employee;
        declare continue handler for not found
          set counter = -1;
        open c1;
        fetch_loop:
        loop
          fetch c1 into v_firstnme, v_midinit, v_lastname;
          if v_midinit = ‘ ‘ then
            leave fetch_loop;
          end if;
          set v_counter = v_counter + 1;
        end loop fetch_loop;
        set counter = v_counter;
        close c1;
      end


-- return的用法

    begin
    ...
      goto fail
    ...
      success: return 0
      fail: return -200
    end


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