• mysql中的第三范式


    ※多表操作 (凡是多表,都要用到关联技术(把多表合并成一个新表): 左关联、右关联、内关联。还有一个外(全)关联,MySQL不支持,为考虑软件兼容,我们开发一般不用。)

    ※表与表之间的关系:1对1,1对多,多对多
    一、1对1
    ※第三范式: 1方建主表(id为主键字段), 多方建外键字段(husband--参考主表的主键id,加unique)

    CREATE TABLE man(
    id VARCHAR(32) PRIMARY KEY,
    NAME VARCHAR(30)
    );

    CREATE TABLE woman(
    id VARCHAR(32) PRIMARY KEY,
    NAME VARCHAR(30),
    husband VARCHAR(32) UNIQUE,
    CONSTRAINT wm_fk FOREIGN KEY(husband) REFERENCES man(id)
    );

    //DROP TABLE woman;

    INSERT INTO man VALUES('1','张三');
    INSERT INTO man VALUES('2','李四');
    INSERT INTO man VALUES('3','王五');

    INSERT INTO woman VALUES('1','小花','1');
    INSERT INTO woman VALUES('2','玉芬','3');
    INSERT INTO woman VALUES('3','小玉','1');//Error:违反1对1
    INSERT INTO woman VALUES('3','小玉','10');//Error:违反外键--主表必须存在该外键值

    INSERT INTO man VALUES('10','王六');
    INSERT INTO woman VALUES('3','小玉','10');//OK

    //◇查询夫妻信息(内联)
    SELECT man.name AS 丈夫, woman.name AS 妻子 FROM man
    INNER JOIN woman ON man.id=woman.husband;

    SELECT m.name AS 丈夫, w.name AS 妻子 FROM man AS m
    INNER JOIN woman AS w ON m.id=w.husband;

    二、1对多
    ※第三范式: 1方建主表(id为主键字段), 多方建外键字段(pid--参考主表的主键id,不加unique)
    CREATE TABLE person2(
    id VARCHAR(32) PRIMARY KEY,
    NAME VARCHAR(30),
    sex CHAR(1)
    );

    DROP TABLE car2;
    CREATE TABLE car(
    id VARCHAR(32) PRIMARY KEY,
    NAME VARCHAR(30),
    price NUMERIC(10,2),
    pid VARCHAR(32),
    CONSTRAINT car_fk FOREIGN KEY(pid) REFERENCES person2(id)
    );

    INSERT INTO person2 VALUES('P01','Jack','1');
    INSERT INTO person2 VALUES('P02','Tom','1');
    INSERT INTO person2 VALUES('P03','Rose','0');

    INSERT INTO car VALUES('C001','BMW',30,'P01');
    INSERT INTO car VALUES('C002','BEnZ',40,'P01');
    INSERT INTO car VALUES('C003','Audi',40,'P01');

    INSERT INTO car VALUES('C004','QQ',5.5,'P02');
    //外键字段值可以为“NULL”
    INSERT INTO car(id,NAME,price) VALUES('C005','ABC',10);
    INSERT INTO car(id,NAME,price) VALUES('C006','BCD',10);

    //◇查询哪些人有哪些车
    SELECT * FROM car INNER JOIN person2 ON car.pid=person2.id;
    SELECT car.NAME,car.price,person2.name FROM car
    INNER JOIN person2 ON car.pid=person2.id ;
    //◇查询Jack有哪些车
    SELECT car.NAME,car.price,person2.name FROM car
    INNER JOIN person2 ON car.pid=person2.id where person2.name='Jack';
    //◇查询哪些人有两辆或两辆以上的车
    //失败品:--每组只显示第一条
    SELECT car.NAME,car.price,person2.name FROM car
    INNER JOIN person2 ON car.pid=person2.id GROUP BY person2.id HAVING COUNT(car.pid)>=2;

    //过渡版
    SELECT car.NAME,car.price,person2.name FROM car
    INNER JOIN person2 ON car.pid=person2.id WHERE person2.id IN('P01','P02');
    SELECT pid FROM car GROUP BY pid HAVING COUNT(pid)>=2; //把上面写死的pid写成活的

    //OK版
    SELECT car.NAME,car.price,person2.name FROM car
    INNER JOIN person2 ON car.pid=person2.id WHERE person2.id IN(
    SELECT pid FROM car GROUP BY pid HAVING COUNT(pid)>=2
    );

    //演示左关联: SELECT * FROM person2 LEFT JOIN car ON car.pid=person2.id;
    //◇查询哪些人没有车
    SELECT person2.name FROM person2 LEFT JOIN car ON car.pid=person2.id
    WHERE car.id IS NULL;


    //◇补一个外键的概念(默认是约束): 删除主键信息时,当该主键字段值在外键表中存在时,该记录是不能删除的。---要把外键表是的相关信息删除之后,才能删除。 ---更新同理
    DELETE FROM person2 WHERE id='P01';//car表中存在pid='P01'的车,所以主表不能删除'P01'这条记录


    三、多对多( 3个表= 2个实体表 + 1个关系表 )
    ※第三范式: 两个实体都建成独立的主表, 另外再单独建一个关系表(采用联合主键)
    1、分别建议两个实体表(没有外键,但有自己的主键, 没有冗余信息)
    //DROP TABLE stud;
    //学生表
    CREATE TABLE stud(
    id VARCHAR(32) PRIMARY KEY,
    NAME VARCHAR(30)
    );
    //课程表
    CREATE TABLE ject(
    id VARCHAR(32) PRIMARY KEY,
    NAME VARCHAR(30)
    );

    2、另外补建一个关系表
    CREATE TABLE sj(
    studid VARCHAR(32) NOT NULL,
    jectid VARCHAR(32)
    );
    //注意,要先建联合主键,再添加外键。顺序不能反了。
    ALTER TABLE sj ADD CONSTRAINT sj_pk PRIMARY KEY(studid,jectid);
    ALTER TABLE sj ADD CONSTRAINT sj_fk1 FOREIGN KEY(studid) REFERENCES stud(id);
    ALTER TABLE sj ADD CONSTRAINT sj_fk2 FOREIGN KEY(jectid) REFERENCES ject(id);

    //删除外键约束
    //ALTER TABLE sj DROP FOREIGN KEY sj_fk1;
    //ALTER TABLE sj DROP FOREIGN KEY sj_fk2;


    3、添加一些演示数据
    //实体表1
    INSERT INTO stud VALUES('S001','Jack');
    INSERT INTO stud VALUES('S002','Rose');
    INSERT INTO stud VALUES('S003','Tom');

    //实体表2
    INSERT INTO ject VALUES('J001','Java');
    INSERT INTO ject VALUES('J002','Oracle');
    INSERT INTO ject VALUES('J003','XML');
    INSERT INTO ject VALUES('J004','JSP');
    INSERT INTO ject VALUES('J005','Game');

    //关系表
    INSERT INTO sj VALUES('S001','J001');
    INSERT INTO sj VALUES('S001','J003');
    INSERT INTO sj VALUES('S001','J004');
    INSERT INTO sj VALUES('S002','J002');
    INSERT INTO sj VALUES('S002','J003');
    INSERT INTO sj VALUES('S002','J004');


    //查询哪些人选了哪些课
    //SQL组织的1992标准,可用,但效率不高
    SELECT stud.name, ject.NAME FROM stud,ject,sj WHERE stud.id=sj.studid AND ject.id=sj.jectid;

    //SQL组织的1996标准,效率高,推荐使用---关联
    SELECT stud.name, ject.NAME FROM stud INNER JOIN sj ON stud.id=sj.studid
    INNER JOIN ject ON ject.id=sj.jectid;

    //查询哪些人没选课
    SELECT stud.name FROM stud LEFT JOIN sj ON stud.id=sj.studid
    LEFT JOIN ject ON ject.id=sj.jectid where ject.id is NULL;

    //查询哪些课没人选
    SELECT ject.name FROM stud RIGHT JOIN sj ON stud.id=sj.studid
    RIGHT JOIN ject ON ject.id=sj.jectid where stud.id is NULL;
    --------------------------------------------------------------------------------------------

    //额外补充:

    1)在java中如果要对mysql进行操作时要导入mysql的jar包,倒入之后点右键中的bulid path进行导包;

    2)外键可以保证两个表数据的一致性

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  • 原文地址:https://www.cnblogs.com/1314wamm/p/6022318.html
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