show/hide this revision's text 3 added 1 characters in body

This type of query is best handled if you have a second "utility" table, which you can use for just about any query where you need to convert ranges into specific buckets. The utility table is nothing more than a list of numbers:

CREATE TABLE Iterator (Counter NUMBER);

COUNTER
-------
      0
      1
      2
      3 
4
...
    100 (or however many rows you want to include)

IF we assume that you want to display 30 days, e.g.

SELECT   TO_DATE('6/1/2009', 'MM/DD/YYYY') + i.counter thedate
       , i.My_option
       , count(y.My_option)
    FROM ( SELECT DISTINCT
                  i2.Counter
                , y.My_option
             FROM iterator i2
                , YourTable y
            WHERE i2.Counter < 5
         ) i
           LEFT OUTER JOIN yourtable y 
                           ON  TO_DATE('6/1/2009', 'MM/DD/YYYY') + i.counter 
                               >= y.start_date
                           AND TO_DATE('6/1/2009', 'MM/DD/YYYY') + i.counter 
                               <  y.end_date
                           AND y.My_option = i.My_option
GROUP BY TO_DATE('6/1/2009', 'MM/DD/YYYY') + i.counter
       , i.My_option
ORDER BY 1
       , 2;

The idea is that you create a Cartesian product between your iterator table and your table with the range, then filter out all the cases where your range conditions aren't met. You can use this in many places, and is one of the best examples why it is better to model your data with ranges as opposed to discrete intervals - because you can always convert easily to discrete intervals using this technique.

edit: I really shouldn't use BETWEEN for date range queries - I changed it to >= <
show/hide this revision's text 2 added 199 characters in body

This type of query is best handled if you have a second "utility" table, which you can use for just about any query where you need to convert ranges into specific buckets. The utility table is nothing more than a list of numbers:

CREATE TABLE Iterator (Counter NUMBER);

COUNTER
-------
      0
      2
      3
      4
...
    100 (or however many rows you want to include)

IF we assume that you want to display 30 days, e.g.

SELECT   TO_DATE('6/1/2009', 'MM/DD/YYYY') + i.counter thedate
       , i.My_option
       , count(y.My_option)
    FROM ( SELECT DISTINCT
                  i2.Counter
                , y.My_option
             FROM iterator i2
                , YourTable y
            WHERE i2.Counter < 5
         ) i
           LEFT OUTER JOIN yourtable y 
                           ON  TO_DATE('6/1/2009', 'MM/DD/YYYY') + i.counter 
                               BETWEEN >= y.start_date
                           AND TO_DATE('6/1/2009', 'MM/DD/YYYY') + i.counter 
                               <  y.end_date
                           AND y.My_option = i.My_option
GROUP BY TO_DATE('6/1/2009', 'MM/DD/YYYY') + i.counter
       , i.My_option
ORDER BY 1
       , 2;

The idea is that you create a Cartesian product between your iterator table and your table with the range, then filter out all the cases where your range conditions aren't met. You can use this in many places, and is one of the best examples why it is better to model your data with ranges as opposed to discrete intervals - because you can always convert easily to discrete intervals using this technique.

edit: I really shouldn't use BETWEEN for date range queries - I changed it to >= <
show/hide this revision's text 1

This type of query is best handled if you have a second "utility" table, which you can use for just about any query where you need to convert ranges into specific buckets. The utility table is nothing more than a list of numbers:

CREATE TABLE Iterator (Counter NUMBER);

COUNTER
-------
      0
      2
      3
      4
...
    100 (or however many rows you want to include)

IF we assume that you want to display 30 days, e.g.

SELECT   TO_DATE('6/1/2009', 'MM/DD/YYYY') + i.counter thedate
       , i.My_option
       , count(y.My_option)
    FROM ( SELECT DISTINCT
                  i2.Counter
                , y.My_option
             FROM iterator i2
                , YourTable y
            WHERE i2.Counter < 5
         ) i
           LEFT OUTER JOIN yourtable y 
                           ON  TO_DATE('6/1/2009', 'MM/DD/YYYY') + i.counter 
                               BETWEEN y.start_date  AND y.end_date
                           AND y.My_option = i.My_option
GROUP BY TO_DATE('6/1/2009', 'MM/DD/YYYY') + i.counter
       , i.My_option
ORDER BY 1
       , 2;

The idea is that you create a Cartesian product between your iterator table and your table with the range, then filter out all the cases where your range conditions aren't met. You can use this in many places, and is one of the best examples why it is better to model your data with ranges as opposed to discrete intervals - because you can always convert easily to discrete intervals using this technique.