Posts tagged ‘Lifecycle’

EIS: Putting into Practice the Single Model Principle

Since release 6.2 (November 2008) EiffelStudio has included the EIS system, Eiffel Information System. It has been regularly revised, and significantly improved for the recent 7.1 release.

For us EIS is a key contribution with far-reaching software engineering implications, but many users seem unaware of it, perhaps because we have not been explicit enough about why we think it is important. We would love to have more people try it and give us their feedback. (Please make sure to use the 7.1 version.) Information on EIS can be found in the documentation [1] and also in a blog entry by Tao Feng [2].

EIS connects an Eiffel system with external documents in arbitrary formats; examples of formats currently supported are Microsoft Word and PDF, but you can easily add protocols. Such a connection links an element of the Eiffel text, such as a feature, with an element of the external document, such as a paragraph. Then clicking the Eiffel element in EiffelStudio will open the document at the corresponding place in the external tool (Word, Acrobat etc.); this is the EIS “outgoing” mechanism. Conversely the external element has a back link: clicking in the external tool will open EiffelStudio at the right place; this is the EIS “incoming” mechanism.

For the outgoing mechanism, the link will appear as part of a note clause (with attributes filled by default, you need only edit the URL and any option that you wish to change):

EIS incoming note

The fundamental idea behind EIS is to support the seamless form of software development promoted and permitted by Eiffel, where all phases of a project’s lifecycle are closely linked and the code provides the ultimate reference. Since other documents are often involved, in particular a requirements document (SRS, Software Requirements Specification), it is essential to record their precise associations with elements of the software text. For example a paragraph in the SRS could state that “Whenever the tank temperature reaches 50 degrees, the valve shall be closed”. In the software text, there will be some feature, for example monitor_temperature in the class TANK, reflecting this requirement. The two elements should be linked, in particular to ensure that dependencies appear clearly and that any change in either the requirements or the code triggers the corresponding update to the other side. This is what EIS provides.

We envision further tools to track dependencies and in particular to warn users if an element of a connection (e.g. requirement or code) changes, alerting them to the need to check the linked elements on the other side. One of the key goals here is traceability: effective project management, particular during the evolution of a system, requires that all dependencies between the project’s artifact are properly recorded so that it is possible to find out the consequences of any change, proposed or carried out.

The general approach reflects the essential nature of Eiffel development, with its Single Product Principle linking all elements of a software system and minimizing, rather than exaggerating, the inevitable differences of levels of abstraction between requirements, design, code, test plans, test logs, schedules and all the other products of a software project. The core problem of software engineering is change: if we use different tools and notations at each step, and keep the documents separate, we constantly run the risk of divergence between intent and reality. Eiffel by itself offers a good part of the solution by providing a single method (with all its principles, from Design by Contract to open-closed etc.), a single notation (the Eiffel language itself) and a single integrated set of tools (the EiffelStudio IDE) supporting the entire lifecycle; the language, in particular is meant for requirements and design as much as for implementation. The graphical forms (BON and UML, as produced by the Diagram Tool of EiffelStudio in a roundtrip style, i.e. changes to the diagram immediately generate code and changes to the code are reflected in the diagram) directly support these ideas. Of course documents in other formalisms, for example SRS, remain necessary for human consumption; but they should be closely linked to the core project asset, the Eiffel code; hence the need for EIS and its connection mechanisms.

This approach, as I have often noted when presenting it in public, is hard to convey to people steeped in the mindset of the past (UML as separate from code, model-driven development) which magnify the differences between software levels, hence introducing the risk of divergence and making change painful. The Eiffel approach is innovative enough to cause incomprehension or even rejection. (“What, you are not model-driven, but everyone says model-driven is good!” – well, models are bad if they are inaccurate. In the Eiffel approach the model and the program are the same thing, or more precisely the model is the abstract view of the program, obtained through abstraction mechanisms such as deferred classes with contracts and the “contract view” tool of EiffelStudio.)

To be effective, these ideas require proper tool support, for which EIS is a start. But we would like to know if we are on the right track and hence need feedback. We would be grateful if you could try out EIS and tell us what you think, both about the current state of the mechanism and its long-term prospects in the general framework of high-quality, sustainable software development.


[1] EIS documentation, here.

[2] Tao Feng, Start using Eiffel Information System, Eiffelroom blog entry of 17 April 2008, available here.

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