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I have a complex optimization model of a supply chain. A problem instance becomes an object, that contains properties and lists of objects (e.g. ), that contain properties and lists of objects, etcetera. This is the data.

Based on the data in the objects, I develop an optimization algorithm. So the classes contain all functions and properties that are needed for this algorithm.

Now, I want to build a simulation routine based on the same data. The object model that I created is suitable for this as well. However, there is no interaction between the optimization routines and simulation routines.

As I proceed, I feel that I should somehow separate the 2 functionalities, but it is hard because they are based on the same problem instance. I want to separate because as the number of routines in each class grows, it is hard to keep track of what is what. Currently, I start names of functions that have to do with simulation with Sim. Are there any elegant options to separate the two functionalities?

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Is that the whole question? –  ilivewithian Feb 4 '12 at 10:29
Have you tried making it yet? –  annonymously Feb 4 '12 at 10:29
Sorry, posted by accident while I wasn't finished. –  willem Feb 4 '12 at 10:30

3 Answers 3

Separate your optimization and simulation logic from the data classes.

The data classes should contain properties for the data values and child objects, and encapsulate enough logic to maintain the integrity of the data. The properties and methods in the data classes should allow fairly simple and fine-grained changes to the data, and the only logic they implement is in preventing the data from getting into an "impossible" state. So, for example, they implement validations, or update other objects that contain dependent data. There is no complex optimization logic here.

The optimization and simulation logic goes in separate classes, which operate on the data classes. These classes contain the complex logic for running the optimization/simulation. The code in these classes is at a higher level - focusing on the optimization/simulation problem, not on maintaining data integrity.

Let's say you have Product objects, which contain RawMaterial objects. These are your data classes. The Product.AvailableDate property is calculated as the maximum RawMaterial.AvailableDate property of the raw materials that the product contains. You want to get the earliest available dates for your products by allocating a limited set of raw materials in an optimal way. In this case, it is the data classes job (i.e. the Product and RawMaterial class' job) to implement the logic of "if a product's raw materials are modified, recalculate and update the Product.AvailableDate property". And it is the optimizer's job to decide how to allocate raw materials to products.

Lastly, you said you want to separate the optimization logic from the simulation logic - so just be sure to implement these in separate classes (or sets of classes).

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I'm not sure that I understand your question entirely, or that I understand what you're trying to achieve, but if I do understand; couldn't you just make two classes, or interfaces that contain the different methods? I think this would work pretty well considering that you're already prefixing the methods with Sim. So instead of saying SimMethod, say Sim.Method

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If you cannot split the model into two more specialized parts. In other words if the two operations truely work on the same model you could use the visitor pattern ( http://en.m.wikipedia.org/wiki/Visitor_pattern)

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