Oracle PL/SQL/Table Joins/Outer Joins

Материал из SQL эксперт
Версия от 09:54, 26 мая 2010; Admin (обсуждение | вклад) (1 версия)
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Demo the ANSI outer join

  
SQL>
SQL>
SQL> create table ord_item(
  2           order_no               integer
  3          ,product_id             integer
  4          ,quantity               number(4,0)
  5          ,item_price             number(7,2)
  6          ,total_order_item_price number(9,2)
  7          ,primary key (order_no, product_id)
  8  );
Table created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(1,   2,  10, 23.00 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(2, 1, 1, 23.00 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(2, 5, 1, 10.50 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(2, 8, 1, 17.48 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(3, 8, 1, 35.99 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(4, 7, 1, 19.95 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(5, 5, 1, 10.95 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(6, 8, 1, 22.95 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(7, 1, 6, 15.00 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(7, 5, 1, 10.50 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(7, 8, 1, 10.45 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(8, 8, 1, 35.95 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(9, 8, 1, 65.45 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(9, 5, 1, 10.50 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(10, 3, 1, 19.95 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(11, 8, 1, 30.00);
1 row created.
SQL>
SQL> create table product(
  2          product_id              integer           primary key
  3          ,price                  number(7,2)
  4          ,description            varchar2(75)
  5          ,onhand                 number(5,0)
  6          ,reorder                number(5,0)
  7          ,supplier_no            integer
  8  );
Table created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (1,2.50,"Oracle",100,20);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (2,23.00,"SQL Server",null,null);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (3,null,"MySQL",null,null);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (4,1.50,"DB2",50,10);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (5,10.50,"Java",100,20);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (6,45.00,"C++",null,null);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (7,19.99,"Javascript",3,5);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (8,4.50,"Ruby",null,null);
1 row created.
SQL>
SQL>
SQL>
SQL> SELECT description, nvl(quantity,0)
  2  FROM product LEFT OUTER JOIN ord_item
  3  USING (product_id);
DESCRIPTION                                                                 NVL(QUANTITY,0)
--------------------------------------------------------------------------- ---------------
SQL Server                                                                               10
Oracle                                                                                    1
Java                                                                                      1
Ruby                                                                                      1
Ruby                                                                                      1
Javascript                                                                                1
Java                                                                                      1
Ruby                                                                                      1
Oracle                                                                                    6
Java                                                                                      1
Ruby                                                                                      1
Ruby                                                                                      1
Ruby                                                                                      1
Java                                                                                      1
MySQL                                                                                     1
Ruby                                                                                      1
C++                                                                                       0
DB2                                                                                       0
18 rows selected.
SQL>
SQL> -- Same result with this query:
SQL> SELECT p.description, nvl(o.quantity,0)
  2  FROM product p LEFT OUTER JOIN ord_item o
  3  ON p.product_id = o.product_id
  4  /
DESCRIPTION                                                                 NVL(O.QUANTITY,0)
--------------------------------------------------------------------------- -----------------
SQL Server                                                                                 10
Oracle                                                                                      1
Java                                                                                        1
Ruby                                                                                        1
Ruby                                                                                        1
Javascript                                                                                  1
Java                                                                                        1
Ruby                                                                                        1
Oracle                                                                                      6
Java                                                                                        1
Ruby                                                                                        1
Ruby                                                                                        1
Ruby                                                                                        1
Java                                                                                        1
MySQL                                                                                       1
Ruby                                                                                        1
C++                                                                                         0
DB2                                                                                         0
18 rows selected.
SQL> --Eqivalent traditional syntax:
SQL> SELECT p.description, nvl(o.quantity,0)
  2  FROM product p, ord_item o
  3  WHERE p.product_id = o.product_id(+)
  4  /
DESCRIPTION                                                                 NVL(O.QUANTITY,0)
--------------------------------------------------------------------------- -----------------
SQL Server                                                                                 10
Oracle                                                                                      1
Java                                                                                        1
Ruby                                                                                        1
Ruby                                                                                        1
Javascript                                                                                  1
Java                                                                                        1
Ruby                                                                                        1
Oracle                                                                                      6
Java                                                                                        1
Ruby                                                                                        1
Ruby                                                                                        1
Ruby                                                                                        1
Java                                                                                        1
MySQL                                                                                       1
Ruby                                                                                        1
C++                                                                                         0
DB2                                                                                         0
18 rows selected.
SQL>
SQL> drop table product;
Table dropped.
SQL> drop table ord_item;
Table dropped.
SQL>
SQL> --



Inner and Outer Joins(room and class)

 
SQL>
SQL> CREATE TABLE Room (
  2     RoomID   INT NOT NULL PRIMARY KEY,
  3     Comments VARCHAR(50),
  4     Capacity INT);
Table created.
SQL> INSERT INTO Room (RoomID,Comments,Capacity) VALUES (1,"Main hall",500);
1 row created.
SQL> INSERT INTO Room (RoomID,Comments,Capacity) VALUES (2,"Science Department",200);
1 row created.
SQL> INSERT INTO Room (RoomID,Comments,Capacity) VALUES (3,"Science Room 1",100);
1 row created.
SQL> INSERT INTO Room (RoomID,Comments,Capacity) VALUES (4,"Languages Block",300);
1 row created.
SQL>
SQL>
SQL>
SQL> CREATE TABLE Class (
  2     ClassID     INT NOT NULL PRIMARY KEY,
  3     CourseID    INT NOT NULL,
  4     InstructorID INT NOT NULL,
  5     RoomID      INT NOT NULL,
  6     Time        VARCHAR(50));
Table created.
SQL> INSERT INTO Class (ClassID,CourseID,InstructorID,RoomID,Time) VALUES (1,1,1,6,"Mon 09:00-11:00");
1 row created.
SQL> INSERT INTO Class (ClassID,CourseID,InstructorID,RoomID,Time) VALUES (2,2,1,5,"Mon 11:00-12:00, Thu 09:00-11:00");
1 row created.
SQL> INSERT INTO Class (ClassID,CourseID,InstructorID,RoomID,Time) VALUES (3,3,2,3,"Mon 14:00-16:00");
1 row created.
SQL> INSERT INTO Class (ClassID,CourseID,InstructorID,RoomID,Time) VALUES (4,4,3,2,"Tue 10:00-12:00, Thu 14:00-15:00");
1 row created.
SQL> INSERT INTO Class (ClassID,CourseID,InstructorID,RoomID,Time) VALUES (5,5,2,9,"Tue 14:00-16:00");
1 row created.
SQL>
SQL> SELECT Class.ClassID,
  2         Class.CourseID,
  3         Class.Time,
  4         Room.ruments AS RoomName
  5  FROM Class LEFT OUTER JOIN Room
  6  ON Class.RoomID = Room.RoomID
  7  ORDER BY ClassID
  8
SQL>
SQL> drop table class;
Table dropped.
SQL> drop table room;
Table dropped.
SQL>



Outer Joins demo

 

SQL> CREATE TABLE EMP (EMPNO NUMBER(4) NOT NULL,
  2                    ENAME VARCHAR2(10),
  3                    JOB VARCHAR2(9),
  4                    MGR NUMBER(4),
  5                    HIREDATE DATE,
  6                    SAL NUMBER(7, 2),
  7                    COMM NUMBER(7, 2),
  8                    DEPTNO NUMBER(2));
Table created.
SQL>
SQL> INSERT INTO EMP VALUES (7369, "SMITH", "CLERK",    7902, TO_DATE("17-DEC-1980", "DD-MON-YYYY"), 800, NULL, 20);
1 row created.
SQL> INSERT INTO EMP VALUES (7499, "ALLEN", "SALESMAN", 7698, TO_DATE("20-FEB-1981", "DD-MON-YYYY"), 1600, 300, 30);
1 row created.
SQL> INSERT INTO EMP VALUES (7521, "WARD",  "SALESMAN", 7698, TO_DATE("22-FEB-1981", "DD-MON-YYYY"), 1250, 500, 30);
1 row created.
SQL> INSERT INTO EMP VALUES (7566, "JONES", "MANAGER",  7839, TO_DATE("2-APR-1981",  "DD-MON-YYYY"), 2975, NULL, 20);
1 row created.
SQL> INSERT INTO EMP VALUES (7654, "MARTIN", "SALESMAN", 7698,TO_DATE("28-SEP-1981", "DD-MON-YYYY"), 1250, 1400, 30);
1 row created.
SQL> INSERT INTO EMP VALUES (7698, "BLAKE", "MANAGER", 7839,TO_DATE("1-MAY-1981", "DD-MON-YYYY"), 2850, NULL, 30);
1 row created.
SQL> INSERT INTO EMP VALUES (7782, "CLARK", "MANAGER", 7839,TO_DATE("9-JUN-1981", "DD-MON-YYYY"), 2450, NULL, 10);
1 row created.
SQL> INSERT INTO EMP VALUES (7788, "SCOTT", "ANALYST", 7566,TO_DATE("09-DEC-1982", "DD-MON-YYYY"), 3000, NULL, 20);
1 row created.
SQL> INSERT INTO EMP VALUES (7839, "KING", "PRESIDENT", NULL,TO_DATE("17-NOV-1981", "DD-MON-YYYY"), 5000, NULL, 10);
1 row created.
SQL> INSERT INTO EMP VALUES (7844, "TURNER", "SALESMAN", 7698,TO_DATE("8-SEP-1981", "DD-MON-YYYY"), 1500, 0, 30);
1 row created.
SQL> INSERT INTO EMP VALUES (7876, "ADAMS", "CLERK", 7788,TO_DATE("12-JAN-1983", "DD-MON-YYYY"), 1100, NULL, 20);
1 row created.
SQL> INSERT INTO EMP VALUES (7900, "JAMES", "CLERK", 7698,TO_DATE("3-DEC-1981", "DD-MON-YYYY"), 950, NULL, 30);
1 row created.
SQL> INSERT INTO EMP VALUES (7902, "FORD", "ANALYST", 7566,TO_DATE("3-DEC-1981", "DD-MON-YYYY"), 3000, NULL, 20);
1 row created.
SQL> INSERT INTO EMP VALUES (7934, "MILLER", "CLERK", 7782,TO_DATE("23-JAN-1982", "DD-MON-YYYY"), 1300, NULL, 10);
1 row created.
SQL>
SQL> CREATE TABLE DEPT (DEPTNO NUMBER(2),DNAME VARCHAR2(14),LOC VARCHAR2(13) );
Table created.
SQL>
SQL> INSERT INTO DEPT VALUES (10, "ACCOUNTING", "NEW YORK");
1 row created.
SQL> INSERT INTO DEPT VALUES (20, "RESEARCH", "DALLAS");
1 row created.
SQL> INSERT INTO DEPT VALUES (30, "SALES", "CHICAGO");
1 row created.
SQL> INSERT INTO DEPT VALUES (40, "OPERATIONS", "BOSTON");
1 row created.
SQL>
SQL> select * from emp;
     EMPNO ENAME      JOB              MGR HIREDATE         SAL       COMM     DEPTNO
---------- ---------- --------- ---------- --------- ---------- ---------- ----------
      7369 SMITH      CLERK           7902 17-DEC-80        800                    20
      7499 ALLEN      SALESMAN        7698 20-FEB-81       1600        300         30
      7521 WARD       SALESMAN        7698 22-FEB-81       1250        500         30
      7566 JONES      MANAGER         7839 02-APR-81       2975                    20
      7654 MARTIN     SALESMAN        7698 28-SEP-81       1250       1400         30
      7698 BLAKE      MANAGER         7839 01-MAY-81       2850                    30
      7782 CLARK      MANAGER         7839 09-JUN-81       2450                    10
      7788 SCOTT      ANALYST         7566 09-DEC-82       3000                    20
      7839 KING       PRESIDENT            17-NOV-81       5000                    10
      7844 TURNER     SALESMAN        7698 08-SEP-81       1500          0         30
      7876 ADAMS      CLERK           7788 12-JAN-83       1100                    20
      7900 JAMES      CLERK           7698 03-DEC-81        950                    30
      7902 FORD       ANALYST         7566 03-DEC-81       3000                    20
      7934 MILLER     CLERK           7782 23-JAN-82       1300                    10
14 rows selected.
SQL>
SQL> select * from dept;
    DEPTNO DNAME          LOC
---------- -------------- -------------
        10 ACCOUNTING     NEW YORK
        20 RESEARCH       DALLAS
        30 SALES          CHICAGO
        40 OPERATIONS     BOSTON
SQL>
SQL>
SQL>
SQL>
SQL> -- Outer Joins
SQL>
SQL>
SQL> select e.empno, e.ename, d.dname
  2        from emp e left outer join dept d
  3          on e.deptno = d.deptno
  4       where e.job = "MANAGER";
     EMPNO ENAME      DNAME
---------- ---------- --------------
      7782 CLARK      ACCOUNTING
      7566 JONES      RESEARCH
      7698 BLAKE      SALES
SQL>
SQL>
SQL> drop table dept;
Table dropped.
SQL> drop table emp;
Table dropped.
SQL>
SQL>



Right outer join

  
SQL>
SQL> create table ord_item(
  2           order_no               integer
  3          ,product_id             integer
  4          ,quantity               number(4,0)
  5          ,item_price             number(7,2)
  6          ,total_order_item_price number(9,2)
  7          ,primary key (order_no, product_id)
  8  );
Table created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(1,   2,  10, 23.00 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(2, 1, 1, 23.00 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(2, 5, 1, 10.50 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(2, 8, 1, 17.48 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(3, 8, 1, 35.99 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(4, 7, 1, 19.95 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(5, 5, 1, 10.95 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(6, 8, 1, 22.95 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(7, 1, 6, 15.00 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(7, 5, 1, 10.50 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(7, 8, 1, 10.45 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(8, 8, 1, 35.95 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(9, 8, 1, 65.45 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(9, 5, 1, 10.50 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(10, 3, 1, 19.95 );
1 row created.
SQL> insert into ord_item(order_no, product_id, quantity, item_price)values(11, 8, 1, 30.00);
1 row created.
SQL>
SQL> create table product(
  2          product_id              integer           primary key
  3          ,price                  number(7,2)
  4          ,description            varchar2(75)
  5          ,onhand                 number(5,0)
  6          ,reorder                number(5,0)
  7          ,supplier_no            integer
  8  );
Table created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (1,2.50,"Oracle",100,20);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (2,23.00,"SQL Server",null,null);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (3,null,"MySQL",null,null);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (4,1.50,"DB2",50,10);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (5,10.50,"Java",100,20);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (6,45.00,"C++",null,null);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (7,19.99,"Javascript",3,5);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (8,4.50,"Ruby",null,null);
1 row created.
SQL>
SQL>
SQL>
SQL> SELECT description, nvl(quantity,0)
  2  FROM ord_item RIGHT OUTER JOIN product
  3  USING (product_id);
DESCRIPTION                                                                 NVL(QUANTITY,0)
--------------------------------------------------------------------------- ---------------
SQL Server                                                                               10
Oracle                                                                                    1
Java                                                                                      1
Ruby                                                                                      1
Ruby                                                                                      1
Javascript                                                                                1
Java                                                                                      1
Ruby                                                                                      1
Oracle                                                                                    6
Java                                                                                      1
Ruby                                                                                      1
Ruby                                                                                      1
Ruby                                                                                      1
Java                                                                                      1
MySQL                                                                                     1
Ruby                                                                                      1
C++                                                                                       0
DB2                                                                                       0
18 rows selected.
SQL>
SQL> drop table product;
Table dropped.
SQL> drop table ord_item;
Table dropped.
SQL>
SQL> --



Understanding Outer Joins: e.empno (+) = j.empno

 
SQL> -- create demo table
SQL> create table Employee(
  2    empno              Number(3)  NOT NULL, -- Employee ID
  3    ename              VARCHAR2(10 BYTE),   -- Employee Name
  4    hireDate          DATE,                -- Date Employee Hired
  5    orig_salary        Number(8,2),         -- Orignal Salary
  6    curr_salary        Number(8,2),         -- Current Salary
  7    region             VARCHAR2(1 BYTE)     -- Region where employeed
  8  )
  9  /
Table created.
SQL>
SQL> create table job(
  2    empno              Number(3)  NOT NULL, -- Employee ID
  3    jobtitle           VARCHAR2(10 BYTE)    -- Employee job title
  4  )
  5  /
Table created.
SQL> -- prepare data for employee table
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(122,"Alison",to_date("19960321","YYYYMMDD"), 45000,       48000,       "E")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(123, "James",to_date("19781212","YYYYMMDD"), 23000,       32000,       "W")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(104,"Celia",to_date("19821024","YYYYMMDD"), 53000,       58000,        "E")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(105,"Robert",to_date("19840115","YYYYMMDD"), 31000,      36000,        "W")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(116,"Linda", to_date("19870730","YYYYMMDD"), 43000,       53000,       "E")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(117,"David", to_date("19901231","YYYYMMDD"), 78000,       85000,       "W")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(108,"Jode",  to_date("19960917","YYYYMMDD"), 21000,       29000,       "E")
  3  /
1 row created.
SQL>
SQL> -- prepare data for job table
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(101,   "Painter");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(122,   "Tester");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(123,   "Dediator");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(104,   "Chemist");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(105,   "Accountant");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(116,   "Manager");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(117,   "Programmer");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(108,   "Developer");
1 row created.
SQL>
SQL>
SQL> -- display data in the table
SQL> select * from Employee
  2  /
     EMPNO ENAME      HIREDATE  ORIG_SALARY CURR_SALARY R
---------- ---------- --------- ----------- ----------- -
       122 Alison     21-MAR-96       45000       48000 E
       123 James      12-DEC-78       23000       32000 W
       104 Celia      24-OCT-82       53000       58000 E
       105 Robert     15-JAN-84       31000       36000 W
       116 Linda      30-JUL-87       43000       53000 E
       117 David      31-DEC-90       78000       85000 W
       108 Jode       17-SEP-96       21000       29000 E
7 rows selected.
SQL>
SQL> select * from job;
     EMPNO JOBTITLE
---------- ----------
       101 Painter
       122 Tester
       123 Dediator
       104 Chemist
       105 Accountant
       116 Manager
       117 Programmer
       108 Developer
8 rows selected.
SQL>
SQL>
SQL>
SQL> -- Understanding Outer Joins: e.empno (+) = j.empno
SQL>
SQL> SELECT e.ename, j.jobtitle
  2  FROM employee e, job j
  3  WHERE e.empno (+) = j.empno ;
ENAME      JOBTITLE
---------- ----------
Alison     Tester
James      Dediator
Celia      Chemist
Robert     Accountant
Linda      Manager
David      Programmer
Jode       Developer
           Painter
8 rows selected.
SQL>
SQL>
SQL>
SQL>
SQL> drop table job;
Table dropped.
SQL>
SQL> -- clean the table
SQL> drop table Employee
  2  /
Table dropped.
SQL>
SQL>



Understanding Outer Joins: j.empno = e.empno (+)

 

SQL> -- create demo table
SQL> create table Employee(
  2    empno              Number(3)  NOT NULL, -- Employee ID
  3    ename              VARCHAR2(10 BYTE),   -- Employee Name
  4    hireDate          DATE,                -- Date Employee Hired
  5    orig_salary        Number(8,2),         -- Orignal Salary
  6    curr_salary        Number(8,2),         -- Current Salary
  7    region             VARCHAR2(1 BYTE)     -- Region where employeed
  8  )
  9  /
Table created.
SQL>
SQL> create table job(
  2    empno              Number(3)  NOT NULL, -- Employee ID
  3    jobtitle           VARCHAR2(10 BYTE)    -- Employee job title
  4  )
  5  /
Table created.
SQL> -- prepare data for employee table
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2               values (101,"Jason",to_date("19960725","YYYYMMDD"), 34000,        44000        "W")
  3  /
             values (101,"Jason",to_date("19960725","YYYYMMDD"), 34000,        44000        "W")
                                                                                            *
ERROR at line 2:
ORA-00917: missing comma

SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(122,"Alison",to_date("19960321","YYYYMMDD"), 45000,       48000,       "E")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(123, "James",to_date("19781212","YYYYMMDD"), 23000,       32000,       "W")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(104,"Celia",to_date("19821024","YYYYMMDD"), 53000,       58000,        "E")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(105,"Robert",to_date("19840115","YYYYMMDD"), 31000,      36000,        "W")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(116,"Linda", to_date("19870730","YYYYMMDD"), 43000,       53000,       "E")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(117,"David", to_date("19901231","YYYYMMDD"), 78000,       85000,       "W")
  3  /
1 row created.
SQL> insert into Employee(empno,  ename,  hireDate,                       orig_salary, curr_salary, region)
  2                values(108,"Jode",  to_date("19960917","YYYYMMDD"), 21000,       29000,       "E")
  3  /
1 row created.
SQL>
SQL> -- prepare data for job table
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(101,   "Painter");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(122,   "Tester");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(123,   "Dediator");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(104,   "Chemist");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(105,   "Accountant");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(116,   "Manager");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(117,   "Programmer");
1 row created.
SQL>
SQL> insert into job(empno, jobtitle)
  2           values(108,   "Developer");
1 row created.
SQL>
SQL>
SQL> -- display data in the table
SQL> select * from Employee
  2  /
     EMPNO ENAME      HIREDATE  ORIG_SALARY CURR_SALARY R
---------- ---------- --------- ----------- ----------- -
       122 Alison     21-MAR-96       45000       48000 E
       123 James      12-DEC-78       23000       32000 W
       104 Celia      24-OCT-82       53000       58000 E
       105 Robert     15-JAN-84       31000       36000 W
       116 Linda      30-JUL-87       43000       53000 E
       117 David      31-DEC-90       78000       85000 W
       108 Jode       17-SEP-96       21000       29000 E
7 rows selected.
SQL>
SQL> select * from job;
     EMPNO JOBTITLE
---------- ----------
       101 Painter
       122 Tester
       123 Dediator
       104 Chemist
       105 Accountant
       116 Manager
       117 Programmer
       108 Developer
8 rows selected.
SQL>
SQL>
SQL>
SQL>
SQL>
SQL> -- Understanding Outer Joins
SQL>
SQL> SELECT e.ename, j.jobtitle
  2  FROM employee e, job j
  3  WHERE j.empno = e.empno (+);
ENAME      JOBTITLE
---------- ----------
Alison     Tester
James      Dediator
Celia      Chemist
Robert     Accountant
Linda      Manager
David      Programmer
Jode       Developer
           Painter
8 rows selected.
SQL>
SQL>
SQL> drop table job;
Table dropped.
SQL>
SQL> -- clean the table
SQL> drop table Employee
  2  /
Table dropped.
SQL>
SQL>
SQL>



Use an ANSI outer join and use the NVL function to convert nulls to the string "N/A".

  
SQL>
SQL>
SQL> create table product(
  2          product_id              integer           primary key
  3          ,price                  number(7,2)
  4          ,description            varchar2(75)
  5          ,onhand                 number(5,0)
  6          ,reorder                number(5,0)
  7          ,supplier_no            integer
  8  );
Table created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (1,2.50,"Oracle",100,20);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (2,23.00,"SQL Server",null,null);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (3,null,"MySQL",null,null);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (4,1.50,"DB2",50,10);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (5,10.50,"Java",100,20);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (6,45.00,"C++",null,null);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (7,19.99,"Javascript",3,5);
1 row created.
SQL> insert into product(product_id, price, description, onhand, reorder)values (8,4.50,"Ruby",null,null);
1 row created.
SQL>
SQL> select * from product;
PRODUCT_ID      PRICE DESCRIPTION                                                                     ONHAND    REORDER SUPPLIER_NO
---------- ---------- --------------------------------------------------------------------------- ---------- ---------- -----------
         1        2.5 Oracle                                                                             100         20
         2         23 SQL Server
         3            MySQL
         4        1.5 DB2                                                                                 50         10
         5       10.5 Java                                                                               100         20
         6         45 C++
         7      19.99 Javascript                                                                           3          5
         8        4.5 Ruby
8 rows selected.
SQL>
SQL> create table product_supplier(
  2             product_id               integer
  3            ,supplier_no              integer
  4            ,price                    number(7,2)
  5            ,primary key (product_id, supplier_no)
  6  );
Table created.
SQL> insert into product_supplier values(1,10,2.25);
1 row created.
SQL> insert into product_supplier values(1,11,2.10);
1 row created.
SQL> insert into product_supplier values(1,12,2.85);
1 row created.
SQL> insert into product_supplier values(2,10,22.25);
1 row created.
SQL> insert into product_supplier values(2,11,22.00);
1 row created.
SQL> insert into product_supplier values(2,12,21.25);
1 row created.
SQL>
SQL> select * from product_supplier;
PRODUCT_ID SUPPLIER_NO      PRICE
---------- ----------- ----------
         1          10       2.25
         1          11        2.1
         1          12       2.85
         2          10      22.25
         2          11         22
         2          12      21.25
6 rows selected.
SQL>
SQL> create table supplier(
  2          supplier_no             integer           primary key
  3          ,supplier_name          varchar2(50)
  4          ,address                varchar(30)
  5          ,city                   varchar(20)
  6          ,state                  varchar2(2)
  7          ,area_code              varchar2(3)
  8          ,phone                  varchar2(8)
  9  );
Table created.
SQL> insert into supplier(supplier_no, supplier_name)values(10,"ABC Gift Supply Co.");
1 row created.
SQL> insert into supplier(supplier_no, supplier_name)values(11,"BCD Gift Supply Co.");
1 row created.
SQL> insert into supplier(supplier_no, supplier_name)values(12,"WWW Gift Supply Co.");
1 row created.
SQL> insert into supplier(supplier_no, supplier_name)values(13,"XYZ Gift Supply Co.");
1 row created.
SQL> insert into supplier(supplier_no, supplier_name)values(14,"R Gift Supply Co.");
1 row created.
SQL> insert into supplier(supplier_no, supplier_name)values(15,"D Gift Supply Co.");
1 row created.
SQL> insert into supplier(supplier_no, supplier_name)values(16,"B Gift Supply Co.");
1 row created.
SQL> insert into supplier(supplier_no, supplier_name)values(17,"W Gift Supply Co.");
1 row created.
SQL> insert into supplier(supplier_no, supplier_name)values(18,"P Gift Supply Co.");
1 row created.
SQL> insert into supplier(supplier_no, supplier_name)values(19,"R Gift Supply Co.");
1 row created.
SQL>
SQL> select * from supplier;
SUPPLIER_NO SUPPLIER_NAME                                      ADDRESS                        CITY         ST ARE PHONE
----------- -------------------------------------------------- ------------------------------ -------------------- -- --- --------
         10 ABC Gift Supply Co.
         11 BCD Gift Supply Co.
         12 WWW Gift Supply Co.
         13 XYZ Gift Supply Co.
         14 R Gift Supply Co.
         15 D Gift Supply Co.
         16 B Gift Supply Co.
         17 W Gift Supply Co.
         18 P Gift Supply Co.
         19 R Gift Supply Co.
10 rows selected.
SQL>
SQL>
SQL>
SQL> select supplier_name, nvl(description, "N/A") AS description
  2  from supplier left outer join product_supplier using (supplier_no)
  3                  left outer join product using (product_id);
SUPPLIER_NAME                                      DESCRIPTION
-------------------------------------------------- ---------------------------------------------------------------------------
WWW Gift Supply Co.                                Oracle
BCD Gift Supply Co.                                Oracle
ABC Gift Supply Co.                                Oracle
WWW Gift Supply Co.                                SQL Server
BCD Gift Supply Co.                                SQL Server
ABC Gift Supply Co.                                SQL Server
B Gift Supply Co.                                  N/A
R Gift Supply Co.                                  N/A
P Gift Supply Co.                                  N/A
W Gift Supply Co.                                  N/A
R Gift Supply Co.                                  N/A
D Gift Supply Co.                                  N/A
XYZ Gift Supply Co.                                N/A
13 rows selected.
SQL>
SQL>
SQL>
SQL> drop table supplier;
Table dropped.
SQL> drop table product_supplier;
Table dropped.
SQL> drop table product;
Table dropped.
SQL>
SQL> --