转自:http://www.cnblogs.com/myqiao/archive/2011/07/13/2105800.html
根据前面几篇的内容,我们可以很轻送的创建一个数据表,并向其中插入一些数据,不多说,看例子:
myqiao@ubuntu:~/My Documents/db$ sqlite3 test.db -- Loading resources from /home/myqiao/.sqliterc SQLite version 3.7.4 Enter ".help" for instructions Enter SQL statements terminated with a ";" sqlite> .tables sqlite> sqlite> CREATE TABLE Teachers( ...> Id integer PRIMARY KEY, ...> Name text NOT NULL, ...> Age integer CHECK(Age>22), ...> Country text DEFAULT 'USA'); sqlite> .tables Teachers sqlite> sqlite> INSERT INTO Teachers VALUES(1,'Alice',25,'CHN'); sqlite> INSERT INTO Teachers VALUES(2,'Bob',25,'BRA'); sqlite> INSERT INTO Teachers(Id,Name,Age,Country) VALUES(3,'Charls',33,'USA'); sqlite> INSERT INTO Teachers(Name,Age) VALUES('Jhon',43); sqlite> SELECT * FROM Teachers; Id Name Age Country ---- --------------- --------------- --------------- 1 Alice 25 CHN 2 Bob 25 BRA 3 Charls 33 USA 4 Jhon 43 USA sqlite>
很简单,创建了一个 Teachers 表并向其中添加了四条数据,设定了一些约束,其中有自动增加的主键、默认值等等。
UPDATE 语句用来更新表中的某个列,如果不设定条件,则所有记录的这一列都被更新; 如果设定了条件,则符合条件的记录的这一列被更新, WHERE 子句被用来设定条件,如下例:
sqlite> sqlite> SELECT * FROM Teachers; Id Name Age Country ---- --------------- --------------- --------------- 1 Alice 25 CHN 2 Bob 25 BRA 3 Charls 33 USA 4 Jhon 43 USA sqlite> sqlite> sqlite> UPDATE Teachers SET Country='China'; sqlite> SELECT * FROM Teachers; Id Name Age Country ---- --------------- --------------- --------------- 1 Alice 25 China 2 Bob 25 China 3 Charls 33 China 4 Jhon 43 China sqlite> sqlite> sqlite> UPDATE Teachers SET Country='America' WHERE Id=3; sqlite> SELECT * FROM Teachers; Id Name Age Country ---- --------------- --------------- --------------- 1 Alice 25 China 2 Bob 25 China 3 Charls 33 America 4 Jhon 43 China sqlite> sqlite> sqlite> UPDATE Teachers SET Country='India' WHERE Age<30; sqlite> SELECT * FROM Teachers; Id Name Age Country ---- --------------- --------------- --------------- 1 Alice 25 India 2 Bob 25 India 3 Charls 33 America 4 Jhon 43 China sqlite>
如果设定 WHERE 条件子句,则删除符合条件的数据记录;如果没有设定条件语句,则删除所有记录
sqlite> sqlite> SELECT * FROM Teachers; Id Name Age Country ---- --------------- --------------- --------------- 1 Alice 25 India 2 Bob 25 India 3 Charls 33 America 4 Jhon 43 China sqlite> sqlite> sqlite> DELETE FROM Teachers WHERE Age>30; sqlite> SELECT * FROM Teachers; Id Name Age Country ---- --------------- --------------- --------------- 1 Alice 25 India 2 Bob 25 India sqlite> sqlite> sqlite> DELETE FROM Teachers; sqlite> SELECT * FROM Teachers; sqlite>
为了后面的练习,需要一些样本数据。 首先将下面的 SQL 语句保存到 data.sql 文件中
然后在在终端执行命令 .read data.sql,将数据导入到数据库中
sqlite> sqlite> .tables Friends sqlite> .read data.sql sqlite> .tables Cars Orders Teachers sqlite>
可以看到,Cars 表和 Orders 表已经导入到数据库中,现在可以查询了
sqlite> sqlite> SELECT * FROM Cars; Id Name Cost ---- --------------- --------------- 1 Audi 52642 2 Mercedes 57127 3 Skoda 9000 4 Volvo 29000 5 Bentley 350000 6 Citroen 21000 7 Hummer 41400 8 Volkswagen 21600 sqlite> SELECT * FROM Orders; Id OrderPrice Customer ---- --------------- --------------- 1 1200 Williamson 2 200 Robertson 3 40 Robertson 4 1640 Smith 5 100 Robertson 6 50 Williamson 7 150 Smith 8 250 Smith 9 840 Brown 10 440 Black 11 20 Brown sqlite>
有时候数据库中的数据太多,全部返回可不行,可以限制返回的数量,还可以设定返回的起始位置,如下:
sqlite> sqlite> SELECT * FROM Cars LIMIT 4; Id Name Cost ---- --------------- --------------- 1 Audi 52642 2 Mercedes 57127 3 Skoda 9000 4 Volvo 29000 sqlite> sqlite> SELECT * FROM Cars LIMIT 4 OFFSET 2; Id Name Cost ---- --------------- --------------- 3 Skoda 9000 4 Volvo 29000 5 Bentley 350000 6 Citroen 21000 sqlite>
我们可以给返回数据集中的某些列起一个比较直观的名字,比如把 Cost 改为"Price Of Car"
sqlite> sqlite> SELECT Name , Cost AS 'Price Of Car' FROM Cars; Name Price Of Car ---- --------------- Audi 52642 Merc 57127 Skod 9000 Volv 29000 Bent 350000 Citr 21000 Humm 41400 Volk 21600 sqlite>
一般的条件语句都是大于、小于、等于之类的,这里有几个特别的条件语句
sqlite> sqlite> SELECT * FROM Cars WHERE Name Like '____'; Id Name Cost ---- --------------- --------------- 1 Audi 52642 sqlite> sqlite> SELECT * FROM Cars WHERE Name Like '%en'; Id Name Cost ---- --------------- --------------- 6 Citroen 21000 8 Volkswagen 21600 sqlite> sqlite> SELECT * FROM Cars WHERE Name Like '%EN'; Id Name Cost ---- --------------- --------------- 6 Citroen 21000 8 Volkswagen 21600 sqlite>
返回两个值之间的数据集合。下面的语句查询价格在 20000 到 55000 之间的车,都是好车啊。
sqlite> sqlite> SELECT * FROM Cars WHERE Cost BETWEEN 20000 AND 55000; Id Name Cost ---- --------------- --------------- 1 Audi 52642 4 Volvo 29000 6 Citroen 21000 7 Hummer 41400 8 Volkswagen 21600 sqlite>
对应列的值必须在集合中。下面的语句查找奥迪和悍马的价格。
sqlite> sqlite> SELECT * FROM Cars WHERE Name IN ('Audi','Hummer'); Id Name Cost ---- --------------- --------------- 1 Audi 52642 7 Hummer 41400 sqlite>
指定某个列进行排序,ASC 为升序,DESC 为降序。下面的语句查询汽车品牌和价格,并以价格排序
sqlite> sqlite> SELECT Name, Cost FROM Cars ORDER BY Cost DESC; Name Cost ---- --------------- Bent 350000 Merc 57127 Audi 52642 Humm 41400 Volv 29000 Volk 21600 Citr 21000 Skod 9000 sqlite>
有一些字段的值可能会出现重复,比如订单表中,一个客户可能会有好几份订单,因此客户的名字会重复出现。
到底有哪些客户下了订单呢?下面的语句将客户名字区分出来。
sqlite> sqlite> Select * FROM Orders; Id OrderPrice Customer ---- --------------- --------------- 1 1200 Williamson 2 200 Robertson 3 40 Robertson 4 1640 Smith 5 100 Robertson 6 50 Williamson 7 150 Smith 8 250 Smith 9 840 Brown 10 440 Black 11 20 Brown sqlite> sqlite> SELECT DISTINCT Customer FROM ORDERS; Customer --------------- Black Brown Robertson Smith Williamson sqlite>
分组和前面的区分有一点类似。区分仅仅是为了去掉重复项,而分组是为了对各类不同项进行统计计算。
比如上面的例子,我们区分出 5 个客户,这 5 个客户一共下了 11 个订单,说明很多客户都下了不止一个订单。
下面的语句统计每个客户在订单上总共花费了多少钱。
sqlite> sqlite> SELECT sum(OrderPrice) AS Total, Customer FROM Orders GROUP BY Customer; Total Customer --------------- --------------- 440 Black 860 Brown 340 Robertson 2040 Smith 1250 Williamson sqlite>
这里 Sum 是 SQLite 内置的统计函数,在这个例子中用来求每个顾客的订单价格的和。
统计结果也可以设定返回条件,但是不能用 WHERE 子句,而是用 HAVING 子句,如下例,返回订单总额大于 1000 的顾客。
sqlite> sqlite> SELECT sum(OrderPrice) AS Total, Customer FROM Orders ...> GROUP BY Customer HAVING sum(OrderPrice)>1000; Total Customer --------------- --------------- 2040 Smith 1250 Williamson sqlite>
有的查询涉及的条件语句很复杂,是有好几个条件语句经过逻辑运算得来的,一共有三种逻辑运算符: