CSC/ECE 517 Summer 2008/wiki3 8 jb: Difference between revisions

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<i>"If any two modules communicate at all, they should exchange as little information as possible" </i> [http://www.tucs.fi/summerschool2001/Meyer/meyer-architecture.pdf Meyer]</li></ul>
<i>"If any two modules communicate at all, they should exchange as little information as possible" </i> [http://www.tucs.fi/summerschool2001/Meyer/meyer-architecture.pdf Meyer]</li></ul>
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The goal of Meyer's small interfaces principle is to reduce [http://en.wikipedia.org/wiki/Coupling_(computer_science) coupling] between classes. There are a two ways to interpret this principle, and I believe this ambiguity was intended. First, a <i>small interface</i> could mean that it has a small parameter list. Minimizing the number of parameters, regardless of the parameter's data type would have the tendency to reduce coupling. Second, a <i>small interface</i> could refer to the size of the individual parameters being minimized. In this case, you would also achieve a reduction in coupling by passing around <i>smaller</i> objects, since they would on average have less hooks to the rest of the code.


[[image:small_interfaces.gif|frame|center| ftp://ftp.idc.ac.il/pub/courses/cs/oosc/ch1-3.ppt ]]
[[image:small_interfaces.gif|frame|center| ftp://ftp.idc.ac.il/pub/courses/cs/oosc/ch1-3.ppt ]]

Revision as of 02:33, 23 July 2008

This wiki will explore some of Bertrand Meyer's contribution to OO design, including the principles of small interfaces, explicit interfaces, uniform-access, self-documentation, and single-choice. We intend to show good examples of each principle, discuss their support in languages other than Eiffel, and discuss whether it is difficult to follow these principles in certain OO languages.

Background

Bertrand Meyer is a professor of Computer Science at ETH Zurich, and is the creator of the Eiffel programming language. Meyer authored a book, titled Object-Oriented Software Construction in which he presented five principles of good Object-oriented design.

Meyer's Five Principles

Small Interfaces

  • "If any two modules communicate at all, they should exchange as little information as possible" Meyer


The goal of Meyer's small interfaces principle is to reduce coupling between classes. There are a two ways to interpret this principle, and I believe this ambiguity was intended. First, a small interface could mean that it has a small parameter list. Minimizing the number of parameters, regardless of the parameter's data type would have the tendency to reduce coupling. Second, a small interface could refer to the size of the individual parameters being minimized. In this case, you would also achieve a reduction in coupling by passing around smaller objects, since they would on average have less hooks to the rest of the code.


ftp://ftp.idc.ac.il/pub/courses/cs/oosc/ch1-3.ppt

Following this principle tends to lead to interfaces where native data types are preferred over classes as arguments. This serves to reduce coupling between modules, and reduce the runtime overhead required to pass parameters from caller to callee. The idea of a central data source is key to implementation of small interfaces.

Explicit Interfaces

"If two modules communicate, this must be obvious from the text of either or both" Meyer

ftp://ftp.idc.ac.il/pub/courses/cs/oosc/ch1-3.ppt


Uniform-access

"All services offered by a module should be available through a uniform notation, which does not betray whether they are implemented through storage or through computation" Meyer

ftp://ftp.idc.ac.il/pub/courses/cs/oosc/ch1-3.ppt


Self-documentation

"The designer of a module should strive to make all information about the module part of the module itself" Meyer

Single-choice

"Whenever a software system must support a set of alternatives, one and only one module in the system should know their exhaustive list" Meyer

Links

Wikipedia page for Bertrand Meyer
Lesson on OO drawing on Bertrand's principles
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