After poring over a similar problem and finding it never provided a complete solution I finally have gotten to the heart of the problem I can't solve. I'm looking for the consecutive amount of days that a person can be prescribed a certain amount of drugs. Because the prescriptions begin and end, there can be multiple, non-contiguous intervals that a person is on X number of drugs. The following SQL script produces the result set of the query I'll post momentarily: Also, I don't have SQL Server 2012.
create table test (pat_id int, cal_date date, grp_nbr int, drug_qty int,[ranking] int) go insert into test(pat_id,cal_date, grp_nbr,drug_qty,[ranking]) values (1, '1/8/2007',7,2, 1), (1, '1/9/2007',7,2, 1), (1, '1/10/2007',7, 2,1), (1, '1/11/2007',7, 2,1), (1, '1/12/2007',7, 2,1), (1, '1/13/2007',7, 2,1), (1, '1/14/2007',7, 2,1), (1, '1/15/2007',7, 2,1), (1, '6/1/2007',7,2, 1), (1, '6/2/2007',7,2, 1), (1, '6/3/2007',7,2, 1)
Notice here that there are two non-contiguous intervals where this person was on two drugs at once. In the days that are omitted,drug_qty was more than two. The last column in this example was my attempt at adding another field that I could group by to help solve the problem (didn't work).
Query to create tables:
CREATE TABLE [dbo].[rx]( [pat_id] [int] NOT NULL, [fill_Date] [date] NOT NULL, [script_End_Date] AS (dateadd(day,[dayssup],[filldate])), [drug_Name] [varchar](50) NULL, [days_Sup] [int] NOT NULL, [quantity] [float] NOT NULL, [drug_Class] [char](3) NOT NULL, CHECK(fill_Date <=script_End_Date PRIMARY KEY CLUSTERED ( [clmid] ASC ) CREATE TABLE [dbo].[Calendar]( [cal_date] [date] PRIMARY KEY, [Year] AS YEAR(cal_date) PERSISTED, [Month] AS MONTH(cal_date) PERSISTED, [Day] AS DAY(cal_date) PERSISTED, [julian_seq] AS 1+DATEDIFF(DD, CONVERT(DATE, CONVERT(varchar,YEAR(cal_date))+'0101'),cal_date), id int identity);
the query I'm using to produce my result sets:
;WITH x AS (SELECT rx.pat_id, c.cal_date, Count(DISTINCT rx.drug_name) AS distinctDrugs FROM rx, calendar AS c WHERE c.cal_date BETWEEN rx.fill_date AND rx.script_end_date AND rx.ofinterest = 1 GROUP BY rx.pat_id, c.cal_date --the query example I used having count(1) =2, but to illustrate the non-contiguous intervals, in practice I need the below having statement HAVING Count(*) > 1), y AS (SELECT x.pat_id, x.cal_date --c2.id is the row number in the calendar table. , c2.id - Row_number() OVER( partition BY x.pat_id ORDER BY x.cal_date) AS grp_nbr, distinctdrugs FROM x, calendar AS c2 WHERE c2.cal_date = x.cal_date) SELECT *, Rank() OVER( partition BY pat_id, grp_nbr ORDER BY distinctdrugs) AS [ranking] FROM y WHERE y.pat_id = 1604012867 AND distinctdrugs = 2
Besides the fact that I shouldn't have a column in the calendar table named 'id', is there anything egregiously wrong with this approach? I can get the query to show me the distinct intervals of distinctDrugs=x, but it will only work for that integer and not anything >1. By this I mean that I can find the separate intervals where a patient is on two drugs, but only when I use =2 in the having clause, not >1. I can't do something like
SELECT pat_id, Min(cal_date), Max(cal_date), distinctdrugs FROM y GROUP BY pat_id, grp_nbr
because this will pick up that second group of non-contiguous dates. Does anyone know of an elegant solution to this problem?