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oracle sql精妙sql语句讲解_数据库技巧

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–行列转换 行转列
DROP TABLE t_change_lc;
CREATE TABLE t_change_lc (card_code VARCHAR2(3), q NUMBER, bal NUMBER);


INSERT INTO t_change_lc
SELECT 001 card_code, ROWNUM q, trunc(dbms_random.VALUE * 100) bal FROM dual CONNECT BY ROWNUM <= 4
UNION
SELECT 002 card_code, ROWNUM q, trunc(dbms_random.VALUE * 100) bal FROM dual CONNECT BY ROWNUM <= 4;


SELECT * FROM t_change_lc;


SELECT a.card_code,
SUM(decode(a.q, 1, a.bal, 0)) q1,
SUM(decode(a.q, 2, a.bal, 0)) q2,
SUM(decode(a.q, 3, a.bal, 0)) q3,
SUM(decode(a.q, 4, a.bal, 0)) q4
FROM t_change_lc a
GROUP BY a.card_code
ORDER BY 1;


–行列转换 列转行
DROP TABLE t_change_cl;
CREATE TABLE t_change_cl AS
SELECT a.card_code,
SUM(decode(a.q, 1, a.bal, 0)) q1,
SUM(decode(a.q, 2, a.bal, 0)) q2,
SUM(decode(a.q, 3, a.bal, 0)) q3,
SUM(decode(a.q, 4, a.bal, 0)) q4
FROM t_change_lc a
GROUP BY a.card_code
ORDER BY 1;


SELECT * FROM t_change_cl;


SELECT t.card_code,
t.rn q,
decode(t.rn, 1, t.q1, 2, t.q2, 3, t.q3, 4, t.q4) bal
FROM (SELECT a.*, b.rn
FROM t_change_cl a,
(SELECT ROWNUM rn FROM dual CONNECT BY ROWNUM <= 4) b) t
ORDER BY 1, 2;


–行列转换 行转列 合并
DROP TABLE t_change_lc_comma;
CREATE TABLE t_change_lc_comma AS SELECT card_code,quarter_||q AS q FROM t_change_lc;


SELECT * FROM t_change_lc_comma;


SELECT t1.card_code, substr(MAX(sys_connect_by_path(t1.q, ;)), 2) q
FROM (SELECT a.card_code,
a.q,
row_number() over(PARTITION BY a.card_code ORDER BY a.q) rn
FROM t_change_lc_comma a) t1
START WITH t1.rn = 1
CONNECT BY t1.card_code = PRIOR t1.card_code
AND t1.rn – 1 = PRIOR t1.rn
GROUP BY t1.card_code;


–行列转换 列转行 分割
DROP TABLE t_change_cl_comma;
CREATE TABLE t_change_cl_comma AS
SELECT t1.card_code, substr(MAX(sys_connect_by_path(t1.q, ;)), 2) q
FROM (SELECT a.card_code,
a.q,
row_number() over(PARTITION BY a.card_code ORDER BY a.q) rn
FROM t_change_lc_comma a) t1
START WITH t1.rn = 1
CONNECT BY t1.card_code = PRIOR t1.card_code
AND t1.rn – 1 = PRIOR t1.rn
GROUP BY t1.card_code;


SELECT * FROM t_change_cl_comma;


SELECT t.card_code,
substr(t.q,
instr(; || t.q, ;, 1, rn),
instr(t.q || ;, ;, 1, rn) – instr(; || t.q, ;, 1, rn)) q
FROM (SELECT a.card_code, a.q, b.rn
FROM t_change_cl_comma a,
(SELECT ROWNUM rn FROM dual CONNECT BY ROWNUM <= 100) b
WHERE instr(; || a.q, ;, 1, rn) > 0) t
ORDER BY 1, 2;



— 实现一条记录根据条件多表插入
DROP TABLE t_ia_src;
CREATE TABLE t_ia_src AS SELECT a||ROWNUM c1, b||ROWNUM c2 FROM dual CONNECT BY ROWNUM<=5;
DROP TABLE t_ia_dest_1;
CREATE TABLE t_ia_dest_1(flag VARCHAR2(10) , c VARCHAR2(10));
DROP TABLE t_ia_dest_2;
CREATE TABLE t_ia_dest_2(flag VARCHAR2(10) , c VARCHAR2(10));
DROP TABLE t_ia_dest_3;
CREATE TABLE t_ia_dest_3(flag VARCHAR2(10) , c VARCHAR2(10));


SELECT * FROM t_ia_src;
SELECT * FROM t_ia_dest_1;
SELECT * FROM t_ia_dest_2;
SELECT * FROM t_ia_dest_3;


INSERT ALL
WHEN (c1 IN (a1,a3)) THEN
INTO t_ia_dest_1(flag,c) VALUES(flag1,c2)
WHEN (c1 IN (a2,a4)) THEN
INTO t_ia_dest_2(flag,c) VALUES(flag2,c2)
ELSE
INTO t_ia_dest_3(flag,c) VALUES(flag1||flag2,c1||c2)
SELECT c1,c2, f1 flag1, f2 flag2 FROM t_ia_src;


— 如果存在就更新,不存在就插入用一个语句实现
DROP TABLE t_mg;
CREATE TABLE t_mg(code VARCHAR2(10), NAME VARCHAR2(10));


SELECT * FROM t_mg;


MERGE INTO t_mg a
USING (SELECT the code code, the name NAME FROM dual) b
ON (a.code = b.code)
WHEN MATCHED THEN
UPDATE SET a.NAME = b.NAME
WHEN NOT MATCHED THEN
INSERT (code, NAME) VALUES (b.code, b.NAME);


— 抽取/删除重复记录
DROP TABLE t_dup;
CREATE TABLE t_dup AS SELECT code_||ROWNUM code, dbms_random.string(z,5) NAME FROM dual CONNECT BY ROWNUM<=10;
INSERT INTO t_dup SELECT code_||ROWNUM code, dbms_random.string(z,5) NAME FROM dual CONNECT BY ROWNUM<=2;


SELECT * FROM t_dup;


SELECT * FROM t_dup a WHERE a.ROWID <> (SELECT MIN(b.ROWID) FROM t_dup b WHERE a.code=b.code);


SELECT b.code, b.NAME
FROM (SELECT a.code,
a.NAME,
row_number() over(PARTITION BY a.code ORDER BY a.ROWID) rn
FROM t_dup a) b
WHERE b.rn > 1;


— IN/EXISTS的不同适用环境
— t_orders.customer_id有索引
SELECT a.*
FROM t_employees a
WHERE a.employee_id IN
(SELECT b.sales_rep_id FROM t_orders b WHERE b.customer_id = 12);


SELECT a.*
FROM t_employees a
WHERE EXISTS (SELECT 1
FROM t_orders b
WHERE b.customer_id = 12
AND a.employee_id = b.sales_rep_id);


— t_employees.department_id有索引
SELECT a.*
FROM t_employees a
WHERE a.department_id = 10
AND EXISTS
(SELECT 1 FROM t_orders b WHERE a.employee_id = b.sales_rep_id);


SELECT a.*
FROM t_employees a
WHERE a.department_id = 10
AND a.employee_id IN (SELECT b.sales_rep_id FROM t_orders b);


— FBI
DROP TABLE t_fbi;
CREATE TABLE t_fbi AS
SELECT ROWNUM rn, dbms_random.STRING(z,10) NAME , SYSDATE + dbms_random.VALUE * 10 dt FROM dual
CONNECT BY ROWNUM <=10;


CREATE INDEX idx_nonfbi ON t_fbi(dt);


DROP INDEX idx_fbi_1;
CREATE INDEX idx_fbi_1 ON t_fbi(trunc(dt));


SELECT * FROM t_fbi WHERE trunc(dt) = to_date(2006-09-21,yyyy-mm-dd) ;


— 不建议使用
SELECT * FROM t_fbi WHERE to_char(dt, yyyy-mm-dd) = 2006-09-21;


— LOOP中的COMMIT/ROLLBACK
DROP TABLE t_loop PURGE;
create TABLE t_loop AS SELECT * FROM user_objects WHERE 1=2;


SELECT * FROM t_loop;


— 逐行提交
DECLARE
BEGIN
FOR cur IN (SELECT * FROM user_objects) LOOP
INSERT INTO t_loop VALUES cur;
COMMIT;
END LOOP;
END;


— 模拟批量提交http://blog.knowsky.com/
DECLARE
v_count NUMBER;
BEGIN
FOR cur IN (SELECT * FROM user_objects) LOOP
INSERT INTO t_loop VALUES cur;
v_count := v_count + 1;
IF v_count >= 100 THEN
COMMIT;
END IF;
END LOOP;
COMMIT;
END;


— 真正的批量提交
DECLARE
CURSOR cur IS
SELECT * FROM user_objects;
TYPE rec IS TABLE OF user_objects%ROWTYPE;
recs rec;
BEGIN
OPEN cur;
WHILE (TRUE) LOOP
FETCH cur BULK COLLECT
INTO recs LIMIT 100;
— forall 实现批量
FORALL i IN 1 .. recs.COUNT
INSERT INTO t_loop VALUES recs (i);
COMMIT;
EXIT WHEN cur%NOTFOUND;
END LOOP;
CLOSE cur;
END;


— 悲观锁定/乐观锁定
DROP TABLE t_lock PURGE;
CREATE TABLE t_lock AS SELECT 1 ID FROM dual;


SELECT * FROM t_lock;


— 常见的实现逻辑,隐含bug
DECLARE
v_cnt NUMBER;
BEGIN
— 这里有并发性的bug
SELECT MAX(ID) INTO v_cnt FROM t_lock;


— here for other operation
v_cnt := v_cnt + 1;
INSERT INTO t_lock (ID) VALUES (v_cnt);
COMMIT;
END;


— 高并发环境下,安全的实现逻辑
DECLARE
v_cnt NUMBER;
BEGIN
— 对指定的行取得lock
SELECT ID INTO v_cnt FROM t_lock WHERE ID=1 FOR UPDATE;
— 在有lock的情况下继续下面的操作
SELECT MAX(ID) INTO v_cnt FROM t_lock;


— here for other operation
v_cnt := v_cnt + 1;
INSERT INTO t_lock (ID) VALUES (v_cnt);
COMMIT; –提交并且释放lock
END;


— 硬解析/软解析
DROP TABLE t_hard PURGE;
CREATE TABLE t_hard (ID INT);


SELECT * FROM t_hard;


DECLARE
sql_1 VARCHAR2(200);
BEGIN
— hard parse
— java中的同等语句是 Statement.execute()
FOR i IN 1 .. 1000 LOOP
sql_1 := insert into t_hard(id) values( || i || );
EXECUTE IMMEDIATE sql_1;
END LOOP;
COMMIT;


— soft parse
–java中的同等语句是 PreparedStatement.execute()
sql_1 := insert into t_hard(id) values(:id);
FOR i IN 1 .. 1000 LOOP
EXECUTE IMMEDIATE sql_1
USING i;
END LOOP;
COMMIT;
END;


 


— 正确的分页算法
SELECT *
FROM (SELECT a.*, ROWNUM rn
FROM (SELECT * FROM t_employees ORDER BY first_name) a
WHERE ROWNUM <= 500)
WHERE rn > 480 ;


— 分页算法(why not this one)
SELECT a.*, ROWNUM rn
FROM (SELECT * FROM t_employees ORDER BY first_name) a
WHERE ROWNUM <= 500 AND ROWNUM > 480;


— 分页算法(why not this one)
SELECT b.*
FROM (SELECT a.*, ROWNUM rn
FROM t_employees a
WHERE ROWNUM < = 500
ORDER BY first_name) b
WHERE b.rn > 480;


— OLAP
— 小计合计
SELECT CASE
WHEN a.deptno IS NULL THEN
合计
WHEN a.deptno IS NOT NULL AND a.empno IS NULL THEN
小计
ELSE
|| a.deptno
END deptno,
a.empno,
a.ename,
SUM(a.sal) total_sal
FROM scott.emp a
GROUP BY GROUPING SETS((a.deptno),(a.deptno, a.empno, a.ename),());


— 分组排序
SELECT a.deptno,
a.empno,
a.ename,
a.sal,
— 可跳跃的rank
rank() over(PARTITION BY a.deptno ORDER BY a.sal DESC) r1,
— 密集型rank
dense_rank() over(PARTITION BY a.deptno ORDER BY a.sal DESC) r2,
— 不分组排序
rank() over(ORDER BY sal DESC) r3
FROM scott.emp a
ORDER BY a.deptno,a.sal DESC;


— 当前行数据和前/后n行的数据比较
SELECT a.empno,
a.ename,
a.sal,
— 上面一行
lag(a.sal) over(ORDER BY a.sal DESC) lag_1,
— 下面三行
lead(a.sal, 3) over(ORDER BY a.sal DESC) lead_3
FROM scott.emp a
ORDER BY a.sal DESC;

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