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(Sorry for the long post, but I guess all the information is really necessary)

We have two tables - task and subtask. Each task consists of one or more subtasks, and each of these objects has a start date, end date and duration. Additionally, subtasks have a ordering.


create table task (
  pk number not null primary key, 
  name varchar2(30) not null,
  start_date date,
  duration_in_days number,
  end_date date,
  needs_recomputation number default 0

create table subtask (
  pk number not null primary key, 
  task_fk references task(pk),
  name varchar2(30) not null,
  start_date date,
  duration_in_days number,
  end_date date,
  ordering number not null

Business rules

  • the first subtask has the stame start date as the task
  • for each subsequent subtask, its start date equals the end date of the predecessor
  • the last subtask has the same end date as the task
  • for each subtask and task: start_date + duration = end_date
  • for the task: duration = sum(duration of subtasks)
  • the end date and duration for the task cannot be changed directly (thank God!)

This directly generates the following requirements for updates/deletes:

  • when the task's start date is changed, the start date of its first subtask is set to the same value, and the start date and end date for all subtasks is re-computed
  • when the start date, end date or duration of a subtask is changed, it's other fields are updated accordingly, all subsequent subtasks are updated accordingly, and finally, the task is updated accordingly
  • when a subtask is deleted, all subsequent subtasks are updated accordingly, and finally, the task is updated accordingly

Current approach

  • the task table has a trigger that updates the first subtask and set the needs_recomputation flag when the start date is changed
  • the subtask table has a trigger that keeps start date/end date/duration consistent and sets the needs_recomputation flag for the parent task (we cannot directly update the subsequent tasks here because of the mutating table problem)
  • to avoid a trigger cascade, each trigger sets a package variable to indicate that no other triggers should be firing
  • a dbms_scheduler job periodically checks the task table and re-computes the data for tasks whose needs_recomputation flag is set

This (kind of) works, but it has several drawbacks:

  • we might get inconsistent data if several people simultaneously change data for the same task (see AskTom on problems with triggers)
  • after an update on the subtask table, we have a short time period where the data is inconsistent (until the next time the sync job runs). Currently, we manually run the job after each change action in the GUI, but this is obviously error-prone

So my question is - is there any sensible alternative approach for this?


create or replace package pkg_task is

  g_update_in_progress boolean;
  procedure recomputeDates(p_TaskID in;

  procedure recomputeAllDates;

create or replace package body pkg_task is

  procedure recomputeDates(p_TaskID in is
    g_update_in_progress := true;
    -- update the subtasks
    merge into subtask tgt
    using (select pk,
                  sum(duration_in_days) over(partition by task_fk order by ordering) as cumulative_duration,
                  min(start_date) over(partition by task_fk) + sum(duration_in_days) over(partition by task_fk order by ordering rows between unbounded preceding and 1 preceding) as new_start_date,
                  min(start_date) over(partition by task_fk) + sum(duration_in_days) over(partition by task_fk order by ordering) as new_end_date
             from subtask s
            where s.task_fk = p_TaskID
            order by task_fk,
                     ordering) src
    on ( =
    when matched then
         set tgt.start_date = nvl(src.new_start_date,
             tgt.end_date   = nvl(src.new_end_date,
    -- update the task                                  
    merge into task tgt
    using (select p_TaskID as pk,
                  min(s.start_date) as new_start_date,
                  max(s.end_date) as new_end_date,
                  sum(s.duration_in_days) as new_duration
             from subtask s
            where s.task_fk = p_TaskID) src
    on ( =
    when matched then
         set tgt.start_date          = src.new_start_date,
             tgt.end_date            = src.new_end_date,
             tgt.duration_in_days    = src.new_duration,
             tgt.needs_recomputation = 0;
    g_update_in_progress := false;

  procedure recomputeAllDates is
    for cur in (select pk
                  from task t
                 where t.needs_recomputation = 1)
    end loop;

  g_update_in_progress := false;


create or replace trigger trg_task
before update on task
for each row
    if (:new.start_date <> :old.start_date and not pkg_task.g_update_in_progress) then
      pkg_task.g_update_in_progress := true;
      -- set the start date for the first subtask
      update subtask s 
      set s.start_date = :new.start_date
      where s.task_fk =
      and s.ordering = 1;
      :new.needs_recomputation := 1;
      pkg_task.g_update_in_progress := false;      
    end if;

create or replace trigger trg_subtask
  before update on subtask
  for each row
  l_date_changed boolean := false;
  if (not pkg_task.g_update_in_progress) then
    pkg_task.g_update_in_progress := true;

    if (:new.start_date <> :old.start_date) then
      :new.end_date  := :new.start_date + :new.duration_in_days;
      l_date_changed := true;
    end if;
    if (:new.end_date <> :old.end_date) then
      :new.duration_in_days := :new.end_date - :new.start_date;
      l_date_changed        := true;
    end if;
    if (:new.duration_in_days <> :old.duration_in_days) then
      :new.end_date  := :new.start_date + :new.duration_in_days;
      l_date_changed := true;
    end if;

    if l_date_changed then
      -- set the needs_recomputation flag for the parent task
      -- if this is the first subtask, set the parent's start date, as well
      update task t
         set t.start_date         =
               when :new.ordering = 1 then
             t.needs_recomputation = 1
       where = :new.task_fk;
    end if;
    pkg_task.g_update_in_progress := false;
  end if;


      job_name => 'JOB_SYNC_TASKS'
     ,job_type => 'PLSQL_BLOCK'
     ,job_action => 'begin pkg_task.recomputeAllDates; commit; end; '

     ,start_date      => to_timestamp_tz('2014-01-14 10:00:00 Europe/Berlin',
                                         'yyyy-mm-dd hh24:mi:ss tzr')
     ,repeat_interval => 'FREQ=HOURLY;BYMINUTE=0,5,10,15,20,25,30,35,40,45,50,55'
     ,enabled => TRUE
     ,comments => 'Task sync job, runs every 5 minutes');
share|improve this question
Is there something in the logic that's making it impractical to just do all the updates to both tables from a package procedure? Triggers wouldn't seem an obvious go-to tool for this kind of thing to me, but not sure if I'm missing something. (Probably...) – Alex Poole Jan 14 '14 at 10:27
@AlexPoole In principle, you're right. But this data is used by several applications, and if we put such a procedure in place, we cannot guarantee that all applications really use this procedure :-( – Frank Schmitt Jan 14 '14 at 10:32
Well, you can remove insert/update privileges from the application users so they can't do direct CRUD and have to go through the procedure. But I take your point. – Alex Poole Jan 14 '14 at 10:33
@AlexPoole Removing the privileges might be a viable approach. Thanks for the suggestion, I'll have to check this. – Frank Schmitt Jan 14 '14 at 10:43
up vote 6 down vote accepted

Using triggers here is just asking for trouble.

Furthermore, the choice of using the scheduler is probably not the best idea since the scheduled jobs can only see committed data. So either you're committing in the trigger which throws transaction logic out of the window or the changes to the tables are delayed until the end of the transaction.

You should either:

  1. Use procedures. The simplest answer. When you have multiple applications they should not perform DML/businees logic directly, they should always do it with procedures so that they all run the same code. Forbid direct DML with grants or views. You may need to force the use of procedures through INSTEAD OF triggers on views (consider this only if you can't modify the application).

  2. Probably even better than procedures in your case: use a schema that doesn't contain duplicate data. You don't want to store redundant data: this makes application development more complex than needed. In terms of performace, resources and energy, the best way to solve a problem is when you realize that the task is unnecessary.

    From the description of your model, here are the columns that you could remove:

    • task.duration_in_days
    • task.end_date
    • task.needs_recomputation
    • subtask.start_date
    • subtask.end_date

    The task table would contain the start date only, and each subtask would only store its duration. When you need the aggregate information, use joins. You can use views to let the applications access the data transparently.

  3. Use a mutating trigger workaround that uses package variables to identify modified rows with BEFORE and AFTER statement triggers. Obviously this will involve lots of code that will be hard to code, test and maintain so you should use options (1) and (2) whenever possible instead.

share|improve this answer
V. wise, particularly on removal of redundant data. I'd also investigate using a cluster for storing the two tables, as the use of the view will involve a lot of querying in a single task's data set, and having the records co-located will help. I'd consider storing either the tasks start date or the end date instead of the duration, as a query of the form "show me all the tasks that are due to start tomorrow" is more likely than one of the form "show me all the long tasks", and you want to get some benefit from indexing or easy and early filtering of rows to exclude them from the data ... – David Aldridge Jan 15 '14 at 9:17
... If performance on that kind of "show me all the tasks starting tomorrow" and "show me all the tasks ending tomorrow" are problematic (they ought to be fine really because this is probably never going to be a million row table) then a materialised view might be handy. – David Aldridge Jan 15 '14 at 9:18
@DavidAldridge I agree, storing redundant data can be justified for performance reasons. You're right, searching for all subtasks for a given date would result in a FTS and could be problematic if the problem can't be partitionned somehow. Using a materialized view might be a good idea in this case: it's a declarative solution that doesn't involve lots of coding and takes care of the data synchronization automatically. – Vincent Malgrat Jan 15 '14 at 9:55
@VincentMalgrat Thanks for your input. I'll try to push for removing the duplicate data and for using only packages to update the data. – Frank Schmitt Jan 15 '14 at 15:03

Some more general proposals from my point of view (as far as I understand your requirements):

Remove column "duration_in_days", this is redundant. You can provide this by a view or query.

Keep the trigger as simple as possible, i.e. use it only for:

  • Generate the PK value from sequence (if required).
  • In case you don't like to drop column "duration_in_days": calculate the duration as end_date - start_date

Don't make any updates or inserts into the table directly, provide PL/SQL procedures where you can take care all your which business rules.

PROCEDURE INSERT_Task(id in, name in, start_date in task.start_date%type) is

PROCEDURE INSERT_SubTask(Task_id in, subtask_id in,
name in, start_date in subtask.start_date%type) is

PROCEDURE DELETE_SubTask(subtask_id in is


Then you don't need any recomputation of durations or times and it is much easier to keep everything consistent.

share|improve this answer
+1 thanks for your answer - I accepted the one by Vincent Maigrat, because it is somewhat more extensive. – Frank Schmitt Jan 15 '14 at 15:01

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