这两天学习多表查询,真的很头痛,那些属性真的很烦人,敲了两天之后才有点感觉
几年主要讲一对一和一对多的关联查询以及查询语句中相关的属性
一对一的多表查询
首先以老师和班级为例,这里假设每个老师只负责一个班
先创建相关的表,以及插入数据
CREATE TABLE teacher( t_id INT PRIMARY KEY AUTO_INCREMENT, t_name VARCHAR(20) ); CREATE TABLE class( c_id INT PRIMARY KEY AUTO_INCREMENT, c_name VARCHAR(20), teacher_id INT ); ALTER TABLE class ADD CONSTRAINT fk_teacher_id FOREIGN KEY (teacher_id) REFERENCES teacher(t_id); INSERT INTO teacher(t_name) VALUES('teacher1'); INSERT INTO teacher(t_name) VALUES('teacher2'); INSERT INTO class(c_name, teacher_id) VALUES('class_a', 1); INSERT INTO class(c_name, teacher_id) VALUES('class_b', 2);
其次创建两个实体类分别为Teacher和Classes类
public class Teacher { //定义实体类的属性,与teacher表中的字段对应 private int id; //id===>t_id private String name; //name===>t_name public int getId() { return id; } public void setId(int id) { this.id = id; } public String getName() { return name; } public void setName(String name) { this.name = name; } @Override public String toString() { return "Teacher [id=" + id + ", name=" + name + "]"; } }
public class Classes { //定义实体类的属性,与class表中的字段对应 private int id; //id===>c_id private String name; //name===>c_name /** * class表中有一个teacher_id字段,所以在Classes类中定义一个teacher属性, * 用于维护teacher和class之间的一对一关系,通过这个teacher属性就可以知道这个班级是由哪个老师负责的 */ private Teacher teacher; private List<Student> students; public int getId() { return id; } public void setId(int id) { this.id = id; } public String getName() { return name; } public void setName(String name) { this.name = name; } public Teacher getTeacher() { return teacher; } public void setTeacher(Teacher teacher) { this.teacher = teacher; } public List<Student> getStudents() { return students; } public void setStudents(List<Student> students) { this.students=students; } @Override public String toString() { return "Classes [id=" + id + ", name=" + name + ", teacher=" + teacher + ", students=" + students + "]"; } }
之后我们就来创建新的mapper文件来实现关联查询
<select id="getClass" parameterType="int" resultMap="ClassResultMap"> select * from class c, teacher t where c.teacher_id=t.t_id and c.c_id=#{id} </select> <!-- 使用resultMap映射实体类和字段之间的一一对应关系 --> <resultMap type="me.gacl.domain.Classes" id="ClassResultMap"> <id property="id" column="c_id"/> <result property="name" column="c_name"/> <association property="teacher" javaType="me.gacl.domain.Teacher"> <id property="id" column="t_id"/> <result property="name" column="t_name"/> </association> </resultMap>
这里出现了新的元素就是association,这就是用来和其他表进行关联的标签
property表示的就是在数据库中与之相关联的表的名称
javaType则表示的是与该相关联的表所对应的类
左后就是测试类
public class Test3 { public static void testGetClass(){ SqlSession sqlSession = MyBatisUtil.getSqlSession(); /** * 映射sql的标识字符串, * me.gacl.mapping.classMapper是classMapper.xml文件中mapper标签的namespace属性的值, * getClass是select标签的id属性值,通过select标签的id属性值就可以找到要执行的SQL */ String statement = "me.gacl.mapping.classMapper.getClass";//映射sql的标识字符串 //执行查询操作,将查询结果自动封装成Classes对象返回 Classes clazz = sqlSession.selectOne(statement,1);//查询class表中id为1的记录 //使用SqlSession执行完SQL之后需要关闭SqlSession sqlSession.close(); System.out.println(clazz);//打印结果:Classes [id=1, name=class_a, teacher=Teacher [id=1, name=teacher1]] } public static void main(String[] args) { testGetClass(); } }
一对多的关联查询
这里还采用上面的例子,假设一个班有多个学生
重新创建student表
CREATE TABLE student( s_id INT PRIMARY KEY AUTO_INCREMENT, s_name VARCHAR(20), class_id INT ); INSERT INTO student(s_name, class_id) VALUES('student_A', 1); INSERT INTO student(s_name, class_id) VALUES('student_B', 1); INSERT INTO student(s_name, class_id) VALUES('student_C', 1); INSERT INTO student(s_name, class_id) VALUES('student_D', 2); INSERT INTO student(s_name, class_id) VALUES('student_E', 2); INSERT INTO student(s_name, class_id) VALUES('student_F', 2);
因为给class增添了新的属性,所以重新修改class类,主要就是加上List的各项方法
并且创建student类
public class Student { //定义属性,和student表中的字段对应 private int id; //id===>s_id private String name; //name===>s_name public int getId() { return id; } public void setId(int id) { this.id = id; } public String getName() { return name; } public void setName(String name) { this.name = name; } @Override public String toString() { return "Student [id=" + id + ", name=" + name + "]"; } }
之后在之前创建的mapper文件中在加入新的查询方法
<select id="getClass3" parameterType="int" resultMap="ClassResultMap3"> select * from class c, teacher t,student s where c.teacher_id=t.t_id and c.C_id=s.class_id and c.c_id=#{id} </select> <resultMap type="me.gacl.domain.Classes" id="ClassResultMap3"> <id property="id" column="c_id"/> <result property="name" column="c_name"/> <association property="teacher" column="teacher_id" javaType="me.gacl.domain.Teacher"> <id property="id" column="t_id"/> <result property="name" column="t_name"/> </association> <!-- ofType指定students集合中的对象类型 --> <collection property="students" ofType="me.gacl.domain.Student"> <id property="id" column="s_id"/> <result property="name" column="s_name"/> </collection> </resultMap>
这里我们可以发现有多了一个新的标签即collection
property仍旧是代表的数据库中的表
ofType则是该表所对应的实体类
之后就是测试方法
public class Test4 { public static void testGetClass3(){ SqlSession sqlSession = MyBatisUtil.getSqlSession(); /** * 映射sql的标识字符串, * me.gacl.mapping.classMapper是classMapper.xml文件中mapper标签的namespace属性的值, * getClass3是select标签的id属性值,通过select标签的id属性值就可以找到要执行的SQL */ String statement = "me.gacl.mapping.classMapper.getClass3";//映射sql的标识字符串 //执行查询操作,将查询结果自动封装成Classes对象返回 Classes clazz = sqlSession.selectOne(statement,1);//查询class表中id为1的记录 //使用SqlSession执行完SQL之后需要关闭SqlSession sqlSession.close(); //打印结果:Classes [id=1, name=class_a, teacher=Teacher [id=1, name=teacher1], students=[Student [id=1, name=student_A], Student [id=2, name=student_B], Student [id=3, name=student_C]]] System.out.println(clazz); } public static void main(String[] args) { testGetClass3(); } }
