I am looking at refactoring some very complex code which is a subsystem of a project I have at work. Part of my examination of this code is that it is incredibly complex, and contains a lot of inputs, intermediate values and outputs depending on some core business logic.

I want to redesign this code to be easier to maintain as well as executing a hell of a lot faster, so to start off with I have been trying to look at each of the parameters and their dependencies on each other. This has lead to quite a large and tangled graph and I would like a mechanism for simplifying this graph.

A while back I came across a technique in a book about SOA design called "Matrix Design Decomposition" which uses a matrix of outputs and the dependencies they have on the inputs, applies some form of matrix algebra and can generate Business Process diagrams for those dependencies.

I know there is a web tool available at http://www.designdecomposition.com/ however it is limited in the number of input/output dependencies you can have. I have tried looking around for the algorithmic source for this tool (so I could attempt to implement it myself without the size limitation), however I have had no luck.

Does anybody know a similar technique that I could use? Currently I am even considering taking the dependency matrix and applying some Genetic Algorithms to see if evolution can come up with a simpler workflow...

Cheers,

Aidos

EDIT:

I will explain the motivation:

The original code was written for a system which computed all of the values (about 60) every time the user performed an operation (adding, removing or modifying certain properties of a item). This code was written over ten years ago and is definitely showing signs of age - others have added more complex calculations into the system and now we are getting completely unreasonable performance (up to 2 minutes before control is returned to the user). It has been decided to detach the calculations from the user actions and provide a button to "recalculate" the values.

My problem arises because there are so many calculations that are going on and they are based on the assumption that all of the required data will be available for their computation - now when I try to re-implement the calculations I keep encountering problems because I haven't got the result for a different calculation that this calculation relies on.

This is where I want to use the matrix-decomposition approach. The MD approach allows me to specify all of the inputs and outputs and gives me the "simplest" workflow that I can use for generating all of the outputs.

I can then use this "workflow" to know the precedence of the calculations I need to perform to get the same result without generating any exceptions. It also shows me which parts of the calculation system I can parallelise and where the fork and join points will be (I won't worry about that part just yet). At the moment all I have is an insanely large matrix with lots of dependencies showing in it, with no idea where to start.

I will elaborate from my comment a little more:

I don't want to use the solution from the EA process in the actual program. I want to take the dependency matrix and decompose it into modules that I will then code manually - this is purely a design aid - I am just interested in what the inputs/outputs for these modules will be. Basically a representation of the complex interdependencies between these calculations, as well as some idea of precedence.

Say I have A requires B and C. D requires A and E. F requires B, A and E, I want to effectively partition the problem space from a complex set of dependencies into a "workflow" that I can examine to get a better understanding. Once I have this understanding I can come up with a better design / implementation that is still human readable, so for the example I know I need to calculate A, then C, then D, then F.

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I know this seems kind of strange, if you take a look at the website I linked to before the matrix based decomposition there should give you some understanding of what I am thinking of...