I am trying to program an application for the mac to query a high performance computing cluster about its running and queued calculation jobs. The aim is to be able to monitor the submitted jobs if they are still queued and waiting for execution or if they are running and on which node or host in the cluster.
On the GUI side I would like to be able to display an
NSTableView showing all submitted job and alternatively a second option to see all hosts in the cluster, how many and which jobs are running on each node.
The model objects themselves are not so hard to do, what bothers me most is the lifecycle and the ownership relations between the host and the job objects. This has to be well designed otherwise I will run into memory management problems.
Please note that I would like to program it without using CoreData if possible.
The yellow queue object is the root object of my object graph and it owns all the host objects (has an
NSArray of custom host objects). Each host object owns all the job object which are running on this host (also by having an
NSArray of custom job objects). I think that there are two major problems with this approach:
- where are all the job objects store which are still queued and are not already running on a host. They lack a parent host object.
- How would one implement a
NSTableViewcontaining all the job objects?
The yellow root object holds directly references to all job objects by having them stored in a
NSArray. Each job has an instance variable retaining a host object. Again here are some problems
- I would also have the hosts in the model which are currently idle, so no job is currently executed on them.
- How would one implement the data source for a
NSTableViewshowing all the hosts.
- How does one make sure that there are no duplicate host objects, so that each host in the cluster is represented by one host object only.
My questions are: 1. Which of the two possibilities make most sense? Are there alternatives? 2. Would one better implement it with CoreData? 3. How would one manage the object lifecycle so that there are no retain cycles or dangling pointers.