plsql cumulative multiplication

I have a query that looks like this:

``````SELECT SUM(CAPITAL_RETURN) OVER (PARTITION BY PORTF_CODE,
EXTRACT(MONTH FROM END_DATE) ORDER BY END_DATE
) AS CUM_CAPITAL_RET,
FROM
....
``````

This is fine for creating a cumulative sum column, but I now need to create a cumulative multiplication column.

Is this possible?

Thanks

-

The classical way of doing this is by taking the exponent of the sum of the logarithms of the values, taking care to handle negatives zeroes correctly.

-
1. You could write a user-defined aggregate function. Here is an example:

``````SQL> create or replace type t_multiply as object
2    (
3    total number,
4
5    static function ODCIAggregateInitialize(nctx IN OUT t_multiply )
6    return number,
7
8    member function ODCIAggregateIterate(self IN OUT t_multiply ,
9                                         value number)
10    return number,
11
12    member function ODCIAggregateTerminate(self IN t_multiply,
13                                           retVal OUT  number,
14                                           flags IN number)
15    return number,
16
17    member function ODCIAggregateMerge(self IN OUT t_multiply,
18                                       ctx2 IN t_multiply)
19    return number
20  )
21  /

Type created

SQL> create or replace type body t_multiply
2  is
3
4   static function ODCIAggregateInitialize(nctx IN OUT t_multiply)
5   return number
6   is
7   begin
8     nctx := t_multiply(1);
9     return ODCIConst.Success;
10   end;
11
12   member function ODCIAggregateIterate(self IN OUT t_multiply,
13                                        value IN number)
14   return number
15   is
16
17   begin
18    total := total * value;
19    return ODCIConst.Success;
20   end;
21
22   member function ODCIAggregateTerminate(self IN t_multiply,
23                                          retVal OUT number,
24                                          flags IN number)
25   return number
26   is
27   begin
28     retval := total;
29     return ODCIConst.Success;
30   end;
31
32   member function ODCIAggregateMerge(self IN OUT t_multiply,
33                                      ctx2 IN t_multiply)
34   return number
35   is
36   begin
37     return ODCIConst.Success;
38   end;
39  end;
40  /

Type body created

SQL> CREATE OR REPLACE FUNCTION multiply(input in number)
2  RETURN number
3  PARALLEL_ENABLE AGGREGATE USING t_multiply;
4  /

Function created
``````

Demonstration:

``````  SQL> with t1(col1, col2) as(
2    select 1, 1 from dual union all
3    select 1, 2 from dual union all
4    select 1, 3 from dual union all
5    select 1, 4 from dual
6  )
7  select col1
8       , sum(col2) over(partition by col1 order by col2) as sum1
9       , multiply(col2) over(partition by col1 order by col2) as mult
10    from t1
11  ;

COL1       SUM1       MULT
---------- ---------- ----------
1          1          1
1          3          2
1          6          6
1         10         24
``````
2. You could use model clause to achieve desired result:

`````` SQL> with t1(col1, col2) as(
2    select 1, 1 from dual union all
3    select 1, 2 from dual union all
4    select 1, 3 from dual union all
5    select 1, 4 from dual
6  )
7  select c1
8       , col2
9       , mult
10   from t1
11   model
12   partition by (col1 as c1)
13   dimension by (row_number() over(order by col2) rn)
14   measures(col2, 1 as mult)
15   rules(
16     mult[rn] = nvl(mult[cv() - 1], 1) * col2[cv()]
17   )
18  ;

C1       COL2       MULT
---------- ---------- ----------
1          1          1
1          2          2
1          3          6
1          4         24
``````
-

To put @DavidAldridge's suggestion into code (and also taking care to handle negative values) might look something like this:

``````WITH T AS
(
SELECT 2 AS X FROM DUAL
UNION ALL
SELECT -3 AS X FROM DUAL
UNION ALL
SELECT 4 AS X FROM DUAL
)
SELECT
CASE
-- If there are any zeroes, then the result is zero.
WHEN MAX(CASE WHEN X = 0 THEN 1 END) > 0 THEN 0
-- Otherwise, if there is an even (or zero) number of
-- negative numbers, the result is positive.
WHEN MOD(COUNT(CASE WHEN X < 0 THEN 1 END), 2) = 0 THEN 1
-- Otherwise, the result is negative.
ELSE -1
END
*
EXP
(
SUM
(
CASE
WHEN X = 0 THEN 0
ELSE LN(ABS(X))
END
)
)
FROM
T;
``````

One thing to watch out for, though, is that there may be a greater risk of rounding errors with this method than with methods (like those ones suggested by @NicholasKrasnov) that use multiplication directly.

-