I need to join two tables in a special way. Currently the join is done with a cursor and a loop and I'm looking for a more efficient method to process the data.
The first table is a list of todo items:
create table todo ( todo_id int not null identity(1,1) primary key, cnt int not null, -- how many units of work have to be completed? work char(1) not null -- type of work, for example 'x', 'y', 'z' );
for example the table contains the following values
insert into todo (cnt, work) values (1, 'x'), (3, 'y'), (2, 'u'), (3, 'v'), (1, 'w');
this means work 'x' has to be completed once, work 'y' three times and so on. The work in this todo table has to be completed by the same worker in the Jobs table for the first 'available' Job_id. Each entry in the todo table leads to 'cnt' entries in the Jobs table.
create table jobs (job_id int not null identity(1,1) primary key, worker char(1) not null, -- name of worker, for example 'A', 'B', 'C' work char(1) );
The Jobs table is filled initially with the following values:
insert into jobs (worker) values ('A'),('B'),('C'),('A'),('C'),('B'),('A'),('B'),('C'),('A'),('B'),('C');
In the order of todo_id for each row in the todo table I do the following:
- pick cnt and work
- in the order of Job_id I search the first available worker from the Jobs table
- update the Jobs tables cnt times with the work for the worker
I currently use the following T-SQL code to complete this task:
DECLARE @Cnt int, @work char(1); DECLARE @Worker char(1); DECLARE myCursor CURSOR LOCAL FAST_FORWARD FOR SELECT cnt, work from todo OPEN myCursor FETCH NEXT FROM myCursor INTO @cnt, @work WHILE @@FETCH_STATUS = 0 BEGIN select top 1 @Worker=Worker from jobs where work is null; update top(@cnt) j set work=@work from jobs j where j.work is null and j.worker=@worker; FETCH NEXT FROM myCursor INTO @cnt, @work END CLOSE myCursor DEALLOCATE myCursor
resulting jobs table:
I'm looking now for an efficient query or update Statement that replaces the above loop and I currently can't think of a way to replace the above behaviour of the loop properly.