先来看看MysqL 语法: create table ... like
原始表T1,结构如下:
+----------+------------------+------+-----+---------+----------------+ | Field | Type | Null | Key | Default | Extra | +----------+------------------+------+-----+---------+----------------+ | id | int(10) unsigned | NO | PRI | NULL | auto_increment | | log_time | datetime(6) | YES | | NULL | | +----------+------------------+------+-----+---------+----------------+
快速做一张副本:
MysqL> create table t2 like t1; Query OK,0 rows affected (0.03 sec)
这时会有一张相同的副本表快速产生:
+----------+------------------+------+-----+---------+----------------+ | Field | Type | Null | Key | Default | Extra | +----------+------------------+------+-----+---------+----------------+ | id | int(10) unsigned | NO | PRI | NULL | auto_increment | | log_time | datetime(6) | YES | | NULL | | +----------+------------------+------+-----+---------+----------------+
这时注意到,这里用到自增字段作为主键,不过MysqL 这类语法不会沿用原始表的自增位置,还是从头开始。不过这点说起来难免搞笑,因为MysqL没有单独的序列。
MysqL> insert into t2 (log_time) select now(); Query OK,1 row affected (0.00 sec) Records: 1 Duplicates: 0 Warnings: 0 MysqL> select * from t2; +----+----------------------------+ | id | log_time | +----+----------------------------+ | 1 | 2014-11-27 13:44:12.000000 | +----+----------------------------+ 1 row in set (0.00 sec)
现在来看下Postgresql:
原始表结构如下, 包含了一个序列作为主键。
Table "ytt_sql.t1" Column | Type | Modifiers ----------+-----------------------------+------------------------------------------------- id | integer | not null default nextval('t1_id_seq'::regclass) log_time | timestamp without time zone | Indexes: "t1_pkey" PRIMARY KEY,btree (id)
用类似的语法create table ... like 来创建副本:
t_girl=# create table t2 (like t1 including all); CREATE TABLE Time: 50.035 ms
副本的表结构如下,不过可能发现了一个问题,连同原始表的序列也一起弄过来了,这个太不安全了。
Table "ytt_sql.t2" Column | Type | Modifiers ----------+-----------------------------+------------------------------------------------- id | integer | not null default nextval('t1_id_seq'::regclass) log_time | timestamp without time zone | Indexes: "t2_pkey" PRIMARY KEY,btree (id)
而此时查看到这个序列的指针已经是120了,那么副本表的记录不是要从120开始?而且副本表的插入或者其他写入操作都会影响原始表!
t_girl=# select currval('t1_id_seq'); currval --------- 120 (1 row) Time: 3.771 ms
所以这时重新创建一个新的序列给副本表专用:
t_girl=# create sequence t2_id_seq; CREATE SEQUENCE Time: 12.744 ms
更新这列的默认值。
t_girl=# alter table t2 alter id set default nextval('t2_id_seq'); ALTER TABLE Time: 5.002 ms
这时候插入些记录看看:
t_girl=# insert into t2 (log_time) values ....; INSERT 0 10 Time: 10.331 ms
这时记录从1开始了:
t_girl=# select * from t2; id | log_time ----+---------------------------- 1 | 2014-03-09 06:49:14.393962 2 | 2005-12-30 05:49:14.393962 3 | 2014-05-17 20:49:14.393962 4 | 2004-06-15 22:49:14.393962 5 | 2010-06-19 03:49:14.393962 ... 10 | 2009-09-07 23:49:14.393962 (10 rows) Time: 4.958 ms
不过我这里LIKE了所有选项,也可以不不包括默认值,这样,序列本身就不会复制进来了。
t_girl=# create table t2 (like t1 including all excluding defaults); CREATE TABLE Time: 40.292 ms Table "ytt_sql.t2" Column | Type | Modifiers ----------+-----------------------------+----------- id | integer | not null log_time | timestamp without time zone | Indexes: "t2_pkey" PRIMARY KEY,btree (id)
这里也可以不用LIKE 选项,直接用类似CREATE TABLE AS ...语法,如下:
创建没有记录的空表,但是这里只包含了表结构以及字段相关。
t_girl=# create table t2 as table t1 with no data; SELECT 0 Time: 15.562 ms 或者 t_girl=# create table t2 as select * from t1 where false; SELECT 0 Time: 14.181 ms
我们手动给添加主键以及默认值。
t_girl=# alter table t2 add constraint pk_t2_id primary key (id),alter id set default nextval('t2_id_seq'); ALTER TABLE Time: 41.105 ms
结构跟原来一样了。
Table "ytt_sql.t2" Column | Type | Modifiers ----------+-----------------------------+------------------------------------------------- id | integer | not null default nextval('t2_id_seq'::regclass) log_time | timestamp without time zone | Indexes: "pk_t2_id" PRIMARY KEY,btree (id)原文链接:https://www.f2er.com/postgresql/195476.html