Oracle 行列转换 总结

行列转换包括以下六种情况:
  1. 列转行
  2. 行转列
  3. 多列转换成字符串
  4. 多行转换成字符串
  5. 字符串转换成多列
  6. 字符串转换成多行

 

首先声明,有些例子需要如下10g及以后才有的知识:
  A. 掌握model子句,
  B. 正则表达式
  C. 加强的层次查询


1、列转行
CREATE TABLE t_col_row(
  ID INT,
  c1 VARCHAR2(10),
  c2 VARCHAR2(10),
  c3 VARCHAR2(10));

 

INSERT INTO t_col_row VALUES (1, ‘v11‘, ‘v21‘, ‘v31‘);
INSERT INTO t_col_row VALUES (2, ‘v12‘, ‘v22‘, NULL);
INSERT INTO t_col_row VALUES (3, ‘v13‘, NULL, ‘v33‘);
INSERT INTO t_col_row VALUES (4, NULL, ‘v24‘, ‘v34‘);
INSERT INTO t_col_row VALUES (5, ‘v15‘, NULL, NULL);
INSERT INTO t_col_row VALUES (6, NULL, NULL, ‘v35‘);
INSERT INTO t_col_row VALUES (7, NULL, NULL, NULL);
COMMIT;

 

SELECT * FROM t_col_row;

 

1).  UNION ALL: 适用范围:8i,9i,10g及以后版本
SELECT id, ‘c1‘ cn, c1 cv  FROM t_col_row
UNION ALL
  SELECT id, ‘c2‘ cn, c2 cv   FROM t_col_row
UNION ALL
  SELECT id, ‘c3‘ cn, c3 cv  FROM t_col_row;

若.空行不需要转换,只需加一个where条件,WHERE COLUMN IS NOT NULL 即可。

 

2). MODEL
适用范围:10g及以后
SELECT id, cn, cv FROM t_col_row
MODEL
RETURN UPDATED ROWS
PARTITION BY (ID)
DIMENSION BY (0 AS n)
MEASURES (‘xx‘ AS cn,‘yyy‘ AS cv,c1,c2,c3)
RULES UPSERT ALL
(
  cn[1] = ‘c1‘,
  cn[2] = ‘c2‘,
  cn[3] = ‘c3‘,
  cv[1] = c1[0],
  cv[2] = c2[0],
  cv[3] = c3[0]
  )
ORDER BY ID,cn;

 

3). collection: 适用范围:8i,9i,10g及以后版本
要创建一个对象和一个集合:
CREATE TYPE cv_pair AS OBJECT(cn VARCHAR2(10),cv VARCHAR2(10));

CREATE TYPE cv_varr AS VARRAY(8) OF cv_pair;

SELECT id, t.cn AS cn, t.cv AS cv
  FROM t_col_row,
       TABLE(cv_varr(cv_pair(‘c1‘, t_col_row.c1),
                     cv_pair(‘c2‘, t_col_row.c2),
                     cv_pair(‘c3‘, t_col_row.c3))) t
ORDER BY 1, 2;

 

 

2、行转列

CREATE TABLE t_row_col AS
SELECT id, ‘c1‘ cn, c1 cv
  FROM t_col_row
UNION ALL
SELECT id, ‘c2‘ cn, c2 cv
  FROM t_col_row
UNION ALL
SELECT id, ‘c3‘ cn, c3 cv FROM t_col_row;

 

SELECT * FROM t_row_col ORDER BY 1,2;

 

1). AGGREGATE FUNCTION: 适用范围:8i,9i,10g及以后版本
SELECT id,
       MAX(decode(cn, ‘c1‘, cv, NULL)) AS c1,
       MAX(decode(cn, ‘c2‘, cv, NULL)) AS c2,
       MAX(decode(cn, ‘c3‘, cv, NULL)) AS c3
  FROM t_row_col
GROUP BY id
ORDER BY 1;

 

MAX聚集函数也可以用sum、min、avg等其他聚集函数替代。

 sign()函数根据某个值是0、正数还是负数,分别返回0、1、-1
  用sign和decode来完成比较字段大小来区某个字段
  select decode(sign(字段1-字段2),-1,字段3,字段4) from dual;

 

被指定的转置列只能有一列,但固定的列可以有多列,请看下面的例子:

SELECT mgr, deptno, empno, ename FROM scott.emp ORDER BY 1, 2;

SELECT mgr,
       deptno,
       MAX(decode(empno, ‘7788‘, ename, NULL)) "7788",
       MAX(decode(empno, ‘7902‘, ename, NULL)) "7902",
       MAX(decode(empno, ‘7844‘, ename, NULL)) "7844",
       MAX(decode(empno, ‘7521‘, ename, NULL)) "7521",
       MAX(decode(empno, ‘7900‘, ename, NULL)) "7900",
       MAX(decode(empno, ‘7499‘, ename, NULL)) "7499",
       MAX(decode(empno, ‘7654‘, ename, NULL)) "7654"
  FROM scott.emp
WHERE mgr IN (7566, 7698)
   AND deptno IN (20, 30)
GROUP BY mgr, deptno
ORDER BY 1, 2;

这里转置列为empno,固定列为mgr,deptno。

 

还有一种行转列的方式,就是相同组中的行值变为单个列值,但转置的行值不变为列名:

ID               CN_1             CV_1               CN_2            CV_2                CN_3              CV_3
1                c1                       v11                   c2                   v21                     c3                  v31
2                c1                        v12                  c2                   v22                     c3              
3                c1                        v13                  c2                                               c3                v33
4                c1                                                 c2                   v24                     c3                v34
5                c1                        v15                  c2                                               c3              
6                c1                                                 c2                                              c3                v35
7                c1                                                 c2                                              c3

这种情况可以用分析函数实现:

SELECT id,
       MAX(decode(rn, 1, cn, NULL)) cn_1,
       MAX(decode(rn, 1, cv, NULL)) cv_1,
       MAX(decode(rn, 2, cn, NULL)) cn_2,
       MAX(decode(rn, 2, cv, NULL)) cv_2,
       MAX(decode(rn, 3, cn, NULL)) cn_3,
       MAX(decode(rn, 3, cv, NULL)) cv_3
  FROM (SELECT id,
               cn,
               cv,
               row_number() over(PARTITION BY id ORDER BY cn, cv) rn
          FROM t_row_col)
GROUP BY ID;

 

2). PL/SQL: 适用范围:8i,9i,10g及以后版本
这种对于行值不固定的情况可以使用。
下面是我写的一个包,包中
p_rows_column_real用于前述的第一种不限定列的转换;
p_rows_column用于前述的第二种不限定列的转换。

CREATE OR REPLACE PACKAGE pkg_dynamic_rows_column AS
  TYPE refc IS REF CURSOR;

  PROCEDURE p_print_sql(p_txt VARCHAR2);

  FUNCTION f_split_str(p_str VARCHAR2, p_division VARCHAR2, p_seq INT)
    RETURN VARCHAR2;

  PROCEDURE p_rows_column(p_table      IN VARCHAR2,
                          p_keep_cols  IN VARCHAR2,
                          p_pivot_cols IN VARCHAR2,
                          p_where      IN VARCHAR2 DEFAULT NULL,
                          p_refc       IN OUT refc);

  PROCEDURE p_rows_column_real(p_table     IN VARCHAR2,
                               p_keep_cols IN VARCHAR2,
                               p_pivot_col IN VARCHAR2,
                               p_pivot_val IN VARCHAR2,
                               p_where     IN VARCHAR2 DEFAULT NULL,
                               p_refc      IN OUT refc);
END;
/
CREATE OR REPLACE PACKAGE BODY pkg_dynamic_rows_column AS

  PROCEDURE p_print_sql(p_txt VARCHAR2) IS
    v_len INT;
  BEGIN
    v_len := length(p_txt);
    FOR i IN 1 .. v_len / 250 + 1 LOOP
      dbms_output.put_line(substrb(p_txt, (i - 1) * 250 + 1, 250));
    END LOOP;
  END;

  FUNCTION f_split_str(p_str VARCHAR2, p_division VARCHAR2, p_seq INT)
    RETURN VARCHAR2 IS
    v_first INT;
    v_last  INT;
  BEGIN
    IF p_seq < 1 THEN
      RETURN NULL;
    END IF;
    IF p_seq = 1 THEN
      IF instr(p_str, p_division, 1, p_seq) = 0 THEN
        RETURN p_str;
      ELSE
        RETURN substr(p_str, 1, instr(p_str, p_division, 1) - 1);
      END IF;
    ELSE
      v_first := instr(p_str, p_division, 1, p_seq - 1);
      v_last  := instr(p_str, p_division, 1, p_seq);
      IF (v_last = 0) THEN
        IF (v_first > 0) THEN
          RETURN substr(p_str, v_first + 1);
        ELSE
          RETURN NULL;
        END IF;
      ELSE
        RETURN substr(p_str, v_first + 1, v_last - v_first - 1);
      END IF;
    END IF;
  END f_split_str;

  PROCEDURE p_rows_column(p_table      IN VARCHAR2,
                          p_keep_cols  IN VARCHAR2,
                          p_pivot_cols IN VARCHAR2,
                          p_where      IN VARCHAR2 DEFAULT NULL,
                          p_refc       IN OUT refc) IS
    v_sql VARCHAR2(4000);
    TYPE v_keep_ind_by IS TABLE OF VARCHAR2(4000) INDEX BY BINARY_INTEGER;
    v_keep v_keep_ind_by;
 
    TYPE v_pivot_ind_by IS TABLE OF VARCHAR2(4000) INDEX BY BINARY_INTEGER;
    v_pivot v_pivot_ind_by;
 
    v_keep_cnt   INT;
    v_pivot_cnt  INT;
    v_max_cols   INT;
    v_partition  VARCHAR2(4000);
    v_partition1 VARCHAR2(4000);
    v_partition2 VARCHAR2(4000);
  BEGIN
    v_keep_cnt  := length(p_keep_cols) - length(REPLACE(p_keep_cols, ‘,‘)) + 1;
    v_pivot_cnt := length(p_pivot_cols) -
                   length(REPLACE(p_pivot_cols, ‘,‘)) + 1;
    FOR i IN 1 .. v_keep_cnt LOOP
      v_keep(i) := f_split_str(p_keep_cols, ‘,‘, i);
    END LOOP;
    FOR j IN 1 .. v_pivot_cnt LOOP
      v_pivot(j) := f_split_str(p_pivot_cols, ‘,‘, j);
    END LOOP;
    v_sql := ‘select max(count(*)) from ‘ || p_table || ‘ group by ‘;
    FOR i IN 1 .. v_keep.LAST LOOP
      v_sql := v_sql || v_keep(i) || ‘,‘;
    END LOOP;
    v_sql := rtrim(v_sql, ‘,‘);
    EXECUTE IMMEDIATE v_sql
      INTO v_max_cols;
    v_partition := ‘select ‘;
    FOR x IN 1 .. v_keep.COUNT LOOP
      v_partition1 := v_partition1 || v_keep(x) || ‘,‘;
    END LOOP;
    FOR y IN 1 .. v_pivot.COUNT LOOP
      v_partition2 := v_partition2 || v_pivot(y) || ‘,‘;
    END LOOP;
    v_partition1 := rtrim(v_partition1, ‘,‘);
    v_partition2 := rtrim(v_partition2, ‘,‘);
    v_partition  := v_partition || v_partition1 || ‘,‘ || v_partition2 ||
                    ‘, row_number() over (partition by ‘ || v_partition1 ||
                    ‘ order by ‘ || v_partition2 || ‘) rn from ‘ || p_table;
    v_partition  := rtrim(v_partition, ‘,‘);
    v_sql        := ‘select ‘;
    FOR i IN 1 .. v_keep.COUNT LOOP
      v_sql := v_sql || v_keep(i) || ‘,‘;
    END LOOP;
    FOR i IN 1 .. v_max_cols LOOP
      FOR j IN 1 .. v_pivot.COUNT LOOP
        v_sql := v_sql || ‘ max(decode(rn,‘ || i || ‘,‘ || v_pivot(j) ||
                 ‘,null))‘ || v_pivot(j) || ‘_‘ || i || ‘,‘;
      END LOOP;
    END LOOP;
    IF p_where IS NOT NULL THEN
      v_sql := rtrim(v_sql, ‘,‘) || ‘ from (‘ || v_partition || ‘ ‘ ||
               p_where || ‘) group by ‘;
    ELSE
      v_sql := rtrim(v_sql, ‘,‘) || ‘ from (‘ || v_partition ||
               ‘) group by ‘;
    END IF;
    FOR i IN 1 .. v_keep.COUNT LOOP
      v_sql := v_sql || v_keep(i) || ‘,‘;
    END LOOP;
    v_sql := rtrim(v_sql, ‘,‘);
    p_print_sql(v_sql);
    OPEN p_refc FOR v_sql;
  EXCEPTION
    WHEN OTHERS THEN
      OPEN p_refc FOR
        SELECT ‘x‘ FROM dual WHERE 0 = 1;
  END;

  PROCEDURE p_rows_column_real(p_table     IN VARCHAR2,
                               p_keep_cols IN VARCHAR2,
                               p_pivot_col IN VARCHAR2,
                               p_pivot_val IN VARCHAR2,
                               p_where     IN VARCHAR2 DEFAULT NULL,
                               p_refc      IN OUT refc) IS
    v_sql VARCHAR2(4000);
    TYPE v_keep_ind_by IS TABLE OF VARCHAR2(4000) INDEX BY BINARY_INTEGER;
    v_keep v_keep_ind_by;
    TYPE v_pivot_ind_by IS TABLE OF VARCHAR2(4000) INDEX BY BINARY_INTEGER;
    v_pivot    v_pivot_ind_by;
    v_keep_cnt INT;
    v_group_by VARCHAR2(2000);
  BEGIN
    v_keep_cnt := length(p_keep_cols) - length(REPLACE(p_keep_cols, ‘,‘)) + 1;
    FOR i IN 1 .. v_keep_cnt LOOP
      v_keep(i) := f_split_str(p_keep_cols, ‘,‘, i);
    END LOOP;
    v_sql := ‘select ‘ || ‘cast(‘ || p_pivot_col ||
             ‘ as varchar2(200)) as ‘ || p_pivot_col || ‘ from ‘ || p_table ||
             ‘ group by ‘ || p_pivot_col;
    EXECUTE IMMEDIATE v_sql BULK COLLECT
      INTO v_pivot;
    FOR i IN 1 .. v_keep.COUNT LOOP
      v_group_by := v_group_by || v_keep(i) || ‘,‘;
    END LOOP;
    v_group_by := rtrim(v_group_by, ‘,‘);
    v_sql      := ‘select ‘ || v_group_by || ‘,‘;
 
    FOR x IN 1 .. v_pivot.COUNT LOOP
      v_sql := v_sql || ‘ max(decode(‘ || p_pivot_col || ‘,‘ || chr(39) ||
               v_pivot(x) || chr(39) || ‘,‘ || p_pivot_val ||
               ‘,null)) as "‘ || v_pivot(x) || ‘",‘;
    END LOOP;
    v_sql := rtrim(v_sql, ‘,‘);
    IF p_where IS NOT NULL THEN
      v_sql := v_sql || ‘ from ‘ || p_table || p_where || ‘ group by ‘ ||
               v_group_by;
    ELSE
      v_sql := v_sql || ‘ from ‘ || p_table || ‘ group by ‘ || v_group_by;
    END IF;
    p_print_sql(v_sql);
    OPEN p_refc FOR v_sql;
  EXCEPTION
    WHEN OTHERS THEN
      OPEN p_refc FOR
        SELECT ‘x‘ FROM dual WHERE 0 = 1;
  END;

END;
/

 

3.多列转换成字符串


CREATE TABLE t_col_str AS
SELECT * FROM t_col_row;

这个比较简单,用||或concat函数可以实现:
SELECT concat(‘a‘,‘b‘) FROM dual;

 

1).  || OR concat :  适用范围:8i,9i,10g及以后版本
SELECT * FROM t_col_str;

SELECT ID,c1||‘,‘||c2||‘,‘||c3 AS c123
FROM t_col_str;

 

4.多行转换成字符串
CREATE TABLE t_row_str(
ID INT,
col VARCHAR2(10));

INSERT INTO t_row_str VALUES(1,‘a‘);
INSERT INTO t_row_str VALUES(1,‘b‘);
INSERT INTO t_row_str VALUES(1,‘c‘);
INSERT INTO t_row_str VALUES(2,‘a‘);
INSERT INTO t_row_str VALUES(2,‘d‘);
INSERT INTO t_row_str VALUES(2,‘e‘);
INSERT INTO t_row_str VALUES(3,‘c‘);
COMMIT;

SELECT * FROM t_row_str;

 

1) .  MAX + decode : 适用范围:8i,9i,10g及以后版本
SELECT id,
       MAX(decode(rn, 1, col, NULL)) ||
       MAX(decode(rn, 2, ‘,‘ || col, NULL)) ||
       MAX(decode(rn, 3, ‘,‘ || col, NULL)) str
  FROM (SELECT id,
               col,
               row_number() over(PARTITION BY id ORDER BY col) AS rn
          FROM t_row_str) t
GROUP BY id
ORDER BY 1;

 

2). row_number + lead : 适用范围:8i,9i,10g及以后版本
SELECT id, str
  FROM (SELECT id,
               row_number() over(PARTITION BY id ORDER BY col) AS rn,
               col || lead(‘,‘ || col, 1) over(PARTITION BY id ORDER BY col) ||
               lead(‘,‘ || col, 2) over(PARTITION BY id ORDER BY col) ||
               lead(‘,‘ || col, 3) over(PARTITION BY id ORDER BY col) AS str
          FROM t_row_str)
WHERE rn = 1
ORDER BY 1;

 

3). MODEL: 适用范围:10g及以后版本
SELECT id, substr(str, 2) str FROM t_row_str
MODEL
RETURN UPDATED ROWS
PARTITION BY(ID)
DIMENSION BY(row_number() over(PARTITION BY ID ORDER BY col) AS rn)
MEASURES (CAST(col AS VARCHAR2(20)) AS str)
RULES UPSERT
ITERATE(3) UNTIL( presentv(str[iteration_number+2],1,0)=0)
           (str[0] = str[0] || ‘,‘ || str[iteration_number+1])
ORDER BY 1;          

 

4) . sys_connect_by_path : 适用范围:8i,9i,10g及以后版本
SELECT t.id id, MAX(substr(sys_connect_by_path(t.col, ‘,‘), 2)) str
  FROM (SELECT id, col, row_number() over(PARTITION BY id ORDER BY col) rn
          FROM t_row_str) t
START WITH rn = 1
CONNECT BY rn = PRIOR rn + 1
       AND id = PRIOR id
GROUP BY t.id;

 

适用范围:10g及以后版本
SELECT t.id id, substr(sys_connect_by_path(t.col, ‘,‘), 2) str
  FROM (SELECT id, col, row_number() over(PARTITION BY id ORDER BY col) rn
          FROM t_row_str) t
WHERE connect_by_isleaf = 1
START WITH rn = 1
CONNECT BY rn = PRIOR rn + 1
       AND id = PRIOR id;

 

5) . wmsys.wm_concat:  适用范围:10g及以后版本
这个函数预定义按‘,‘分隔字符串,若要用其他符号分隔可以用,replace将‘,‘替换。

SELECT id, REPLACE(wmsys.wm_concat(col), ‘,‘, ‘/‘)
  FROM t_row_str
GROUP BY id;

 

5.字符串转换成多列


其实际上就是一个字符串拆分的问题。

 

CREATE TABLE t_str_col AS
SELECT ID,c1||‘,‘||c2||‘,‘||c3 AS c123
FROM t_col_str;

SELECT * FROM t_str_col;

 

1). substr + instr : 适用范围:8i,9i,10g及以后版本
SELECT id,
       c123,
       substr(c123, 1, instr(c123 || ‘,‘, ‘,‘, 1, 1) - 1) c1,
       substr(c123,
              instr(c123 || ‘,‘, ‘,‘, 1, 1) + 1,
              instr(c123 || ‘,‘, ‘,‘, 1, 2) - instr(c123 || ‘,‘, ‘,‘, 1, 1) - 1) c2,
       substr(c123,
              instr(c123 || ‘,‘, ‘,‘, 1, 2) + 1,
              instr(c123 || ‘,‘, ‘,‘, 1, 3) - instr(c123 || ‘,‘, ‘,‘, 1, 2) - 1) c3
  FROM t_str_col
ORDER BY 1;

 

2) .  regexp_substr : 适用范围:10g及以后版本
SELECT id,
       c123,
       rtrim(regexp_substr(c123 || ‘,‘, ‘.*?‘ || ‘,‘, 1, 1), ‘,‘) AS c1,
       rtrim(regexp_substr(c123 || ‘,‘, ‘.*?‘ || ‘,‘, 1, 2), ‘,‘) AS c2,
       rtrim(regexp_substr(c123 || ‘,‘, ‘.*?‘ || ‘,‘, 1, 3), ‘,‘) AS c3
  FROM t_str_col
ORDER BY 1;

 

6.字符串转换成多行
CREATE TABLE t_str_row AS
SELECT id,
       MAX(decode(rn, 1, col, NULL)) ||
       MAX(decode(rn, 2, ‘,‘ || col, NULL)) ||
       MAX(decode(rn, 3, ‘,‘ || col, NULL)) str
  FROM (SELECT id,
               col,
               row_number() over(PARTITION BY id ORDER BY col) AS rn
          FROM t_row_str) t
GROUP BY id
ORDER BY 1;

 

SELECT * FROM t_str_row;

 

1) . UNION ALL : 适用范围:8i,9i,10g及以后版本
SELECT id, 1 AS p, substr(str, 1, instr(str || ‘,‘, ‘,‘, 1, 1) - 1) AS cv
  FROM t_str_row
UNION ALL
SELECT id,
       2 AS p,
       substr(str,
              instr(str || ‘,‘, ‘,‘, 1, 1) + 1,
              instr(str || ‘,‘, ‘,‘, 1, 2) - instr(str || ‘,‘, ‘,‘, 1, 1) - 1) AS cv
  FROM t_str_row
UNION ALL
SELECT id,
       3 AS p,
       substr(str,
              instr(str || ‘,‘, ‘,‘, 1, 1) + 1,
              instr(str || ‘,‘, ‘,‘, 1, 2) - instr(str || ‘,‘, ‘,‘, 1, 1) - 1) AS cv
  FROM t_str_row
ORDER BY 1, 2;

 

适用范围:10g及以后版本
SELECT id, 1 AS p, rtrim(regexp_substr(str||‘,‘, ‘.*?‘ || ‘,‘, 1, 1), ‘,‘) AS cv
  FROM t_str_row
UNION ALL
SELECT id, 2 AS p, rtrim(regexp_substr(str||‘,‘, ‘.*?‘ || ‘,‘, 1, 2), ‘,‘) AS cv
  FROM t_str_row
UNION ALL
SELECT id, 3 AS p, rtrim(regexp_substr(str||‘,‘, ‘.*?‘ || ‘,‘,1,3), ‘,‘) AS cv
  FROM t_str_row
ORDER BY 1, 2;

 

2) . VARRAY : 适用范围:8i,9i,10g及以后版本
要创建一个可变数组:
CREATE OR REPLACE TYPE ins_seq_type IS VARRAY(8) OF NUMBER;

SELECT * FROM TABLE(ins_seq_type(1, 2, 3, 4, 5));

SELECT t.id,
       c.column_value AS p,
       substr(t.ca,
              instr(t.ca, ‘,‘, 1, c.column_value) + 1,
              instr(t.ca, ‘,‘, 1, c.column_value + 1) -
              (instr(t.ca, ‘,‘, 1, c.column_value) + 1)) AS cv
  FROM (SELECT id,
               ‘,‘ || str || ‘,‘ AS ca,
               length(str || ‘,‘) - nvl(length(REPLACE(str, ‘,‘)), 0) AS cnt
          FROM t_str_row) t
INNER JOIN TABLE(ins_seq_type(1, 2, 3)) c ON c.column_value <=
                                                     t.cnt
ORDER BY 1, 2;

 

3). SEQUENCE series : 这类方法主要是要产生一个连续的整数列,产生连续整数列的方法有很多,主要有:
CONNECT BY,ROWNUM+all_objects,CUBE等。适用范围:8i,9i,10g及以后版本

SELECT t.id,
       c.lv AS p,
       substr(t.ca,
              instr(t.ca, ‘,‘, 1, c.lv) + 1,
              instr(t.ca, ‘,‘, 1, c.lv + 1) -
              (instr(t.ca, ‘,‘, 1, c.lv) + 1)) AS cv
  FROM (SELECT id,
               ‘,‘ || str || ‘,‘ AS ca,
               length(str || ‘,‘) - nvl(length(REPLACE(str, ‘,‘)), 0) AS cnt
          FROM t_str_row) t,
       (SELECT LEVEL lv FROM dual CONNECT BY LEVEL <= 5) c
WHERE c.lv <= t.cnt
ORDER BY 1, 2;

SELECT t.id,
       c.rn AS p,
       substr(t.ca,
              instr(t.ca, ‘,‘, 1, c.rn) + 1,
              instr(t.ca, ‘,‘, 1, c.rn + 1) -
              (instr(t.ca, ‘,‘, 1, c.rn) + 1)) AS cv
  FROM (SELECT id,
               ‘,‘ || str || ‘,‘ AS ca,
               length(str || ‘,‘) - nvl(length(REPLACE(str, ‘,‘)), 0) AS cnt
          FROM t_str_row) t,
       (SELECT rownum rn FROM all_objects WHERE rownum <= 5) c
WHERE c.rn <= t.cnt
ORDER BY 1, 2;

SELECT t.id,
       c.cb AS p,
       substr(t.ca,
              instr(t.ca, ‘,‘, 1, c.cb) + 1,
              instr(t.ca, ‘,‘, 1, c.cb + 1) -
              (instr(t.ca, ‘,‘, 1, c.cb) + 1)) AS cv
  FROM (SELECT id,
               ‘,‘ || str || ‘,‘ AS ca,
               length(str || ‘,‘) - nvl(length(REPLACE(str, ‘,‘)), 0) AS cnt
          FROM t_str_row) t,
       (SELECT rownum cb FROM (SELECT 1 FROM dual GROUP BY CUBE(1, 2))) c
WHERE c.cb <= t.cnt
ORDER BY 1, 2;

 

适用范围:10g及以后版本
SELECT t.id,
       c.lv AS p,
       rtrim(regexp_substr(t.str || ‘,‘, ‘.*?‘ || ‘,‘, 1, c.lv), ‘,‘) AS cv
  FROM (SELECT id,
               str,
               length(regexp_replace(str || ‘,‘, ‘[^‘ || ‘,‘ || ‘]‘, NULL)) AS cnt
          FROM t_str_row) t
INNER JOIN (SELECT LEVEL lv FROM dual CONNECT BY LEVEL <= 5) c ON c.lv <=
                                                                   t.cnt
ORDER BY 1, 2;

 

4) .  Hierarchical + DBMS_RANDOM:   适用范围:10g及以后版本
SELECT id,
       LEVEL AS p,
       rtrim(regexp_substr(str || ‘,‘, ‘.*?‘ || ‘,‘, 1, LEVEL), ‘,‘) AS cv
  FROM t_str_row
CONNECT BY id = PRIOR id
       AND PRIOR dbms_random.VALUE IS NOT NULL
       AND LEVEL <=
           length(regexp_replace(str || ‘,‘, ‘[^‘ || ‘,‘ || ‘]‘, NULL))
ORDER BY 1, 2;

 

5) .  Hierarchical + CONNECT_BY_ROOT :  适用范围:10g及以后版本
SELECT id,
       LEVEL AS p,
       rtrim(regexp_substr(str || ‘,‘, ‘.*?‘ || ‘,‘, 1, LEVEL), ‘,‘) AS cv
  FROM t_str_row
CONNECT BY id = connect_by_root id
       AND LEVEL <=
           length(regexp_replace(str || ‘,‘, ‘[^‘ || ‘,‘ || ‘]‘, NULL))
ORDER BY 1, 2;

 

6). MODEL : 适用范围:10g及以后版本
SELECT id, p, cv FROM t_str_row
MODEL
RETURN UPDATED ROWS
PARTITION BY(ID)
DIMENSION BY( 0 AS p)
MEASURES( str||‘,‘ AS cv)
RULES UPSERT
  (cv
   [ FOR p
        FROM 1 TO length(regexp_replace(cv[0],‘[^‘||‘,‘||‘]‘,null))
        INCREMENT 1
   ] = rtrim(regexp_substr( cv[0],‘.*?‘||‘,‘,1,cv(p)),‘,‘))
ORDER BY 1,2;

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