All programming paradigms aid developers in the process of improving SoC. For example, object-oriented programming languages such as C# can separate concerns into objects, and a design pattern like MVC can separate content from presentation and data-processing (model) from content. Service-oriented design can separate concerns into services. Procedural programming languages such as C and Pascal can separate concerns into procedures. Aspect-oriented programming languages can separate concerns into aspects and objects.
Separation of concerns is an important design principle in many other areas as well, such as urban planning, architecture and information design. The goal is to design systems so that functions can be optimized independently of other functions, so that failure of one function does not cause other functions to fail, and in general to make it easier to understand, design and manage complex interdependent systems. Common examples include using corridors to connect rooms rather than having rooms open directly into each other, and keeping the stove on one circuit and the lights on another.
The term separation of concerns was probably coined by Edsger W. Dijkstra in his 1974 paper "On the role of scientific thought.
Let me try to explain to you, what to my taste is characteristic for all intelligent thinking. It is, that one is willing to study in depth an aspect of one's subject matter in isolation for the sake of its own consistency, all the time knowing that one is occupying oneself only with one of the aspects. We know that a program must be correct and we can study it from that viewpoint only; we also know that it should be efficient and we can study its efficiency on another day, so to speak. In another mood we may ask ourselves whether, and if so: why, the program is desirable. But nothing is gained --on the contrary!-- by tackling these various aspects simultaneously. It is what I sometimes have called "the separation of concerns", which, even if not perfectly possible, is yet the only available technique for effective ordering of one's thoughts, that I know of. This is what I mean by "focusing one's attention upon some aspect": it does not mean ignoring the other aspects, it is just doing justice to the fact that from this aspect's point of view, the other is irrelevant. It is being one- and multiple-track minded simultaneously.
15 years later, it was evident the term Separation of Concerns was becoming an accepted idea. In 1989, Chris Reade wrote a book titled "Elements of Functional Programming" that describes separation of concerns:
The programmer is having to do several things at the same time, namely,1. describe what is to be computed;2. organise the computation sequencing into small steps;3. organise memory management during the computation.
Reade continues to say,
Ideally, the programmer should be able to concentrate on the first of the three tasks (describing what is to be computed) without being distracted by the other two, more administrative, tasks. Clearly, administration is important but by separating it from the main task we are likely to get more reliable results and we can ease the programming problem by automating much of the administration.
The separation of concerns has other advantages as well. For example, program proving becomes much more feasible when details of sequencing and memory management are absent from the program. Furthermore, descriptions of what is to be computed should be free of such detailed step-by-step descriptions of how to do it if they are to be evaluated with different machine architectures. Sequences of small changes to a data object held in a store may be an inappropriate description of how to compute something when a highly parallel machine is being used with thousands of processors distributed throughout the machine and local rather than global storage facilities.
Automating the administrative aspects means that the language implementor has to deal with them, but he/she has far more opportunity to make use of very different computation mechanisms with different machine architectures.
eXtensible HyperText Markup Language and Cascading Style Sheets are languages intended to separate style from content. Where XHTML elements define the abstract structure of a document, CSS directives are interpreted by the web browser to render those elements in visual form. In practice, one must sometimes alter XHTML in order to obtain the desired result with CSS, in part because style and content are not completely orthogonalized by any existing browser implementation of CSS, and in part because CSS does not allow one to remap the document tree. This particular problem can be avoided by using XML instead of XHTML and XSLT instead of CSS - XSL does allow remapping the XML tree in arbitrary ways.
Aspect-oriented programming allows cross-cutting concerns to be addressed as secondary concerns. For example, most programs require some form of security and logging. Security and logging are often secondary concerns, whereas the primary concern is often on accomplishing business goals.
Most project organization tasks are seen as secondary tasks. For example, build automation is an approach to automating the process of compiling source code into binary code. The primary goals in build automation are reducing the risk of human error and saving time.