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git-svn-id: https://yap.svn.sf.net/svnroot/yap/trunk@1799 b08c6af1-5177-4d33-ba66-4b1c6b8b522a
61 lines
3.3 KiB
Plaintext
61 lines
3.3 KiB
Plaintext
=================================================================
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Logtalk - Object oriented extension to Prolog
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Release 2.29.4
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Copyright (c) 1998-2007 Paulo Moura. All Rights Reserved.
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=================================================================
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To load this example and for sample queries, please see the SCRIPT file.
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You can find the original description of this example (and a solution using
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SICStus Objects) at the URL:
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http://www.sics.se/ps/sicstus/sicstus_32.html#SEC254
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Suppose you wish to represent points in a two-dimensional space. The
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protocol you will have to define consists on the operation move/2, which
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allows you to move one point to a new position, and on the operation
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print/0, which prints the point position. From the base class point,
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which contains the indicated operations, we wish to build three
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variants. One class bounded_point in which one point can only move in a
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restricted area in space. One class history_point, characterized from
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the particularity that each point recalls its previous positions.
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Finally, a class bounded_history_point combining the functionality of
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classes bounded_point and history_point.
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At first sight, this looks like the kind of ideal problem to illustrate
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the advantages of the multiple inheritance mechanisms. However, this type
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of solution holds several problems. If the methods move/2 and
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print/0 are inherited by bounded_history_point of classes
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history_point and bounded_point simultaneously, then one point will be
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moved and shown twice. If the inheritance is carried out, for each
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method, only from one of the superclasses (assuming that it is possible
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to do so, only by breaking the apparent problem symmetry), then the
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interfaces of classes history_point and bounded_point will have to
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contain separately the necessary operations to verify the limits (in the
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case of bounded_point), or to recall the previous positions (in the
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case of history_point). This way, the class bounded_history_point could
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build its own versions of methods move/2 and print/0, adding to the
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inherited definitions of one of the superclasses the calling of the
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operation missing in the other superclass. This is the solution adopted
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in the SICStus Objects. However, this solution also implies a few
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problems. Let's suppose that method move/2 is inherited from class
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history_point. Then, any changing operated in the definition of the same
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method in class bounded_point is ignored by bounded_history_point. The
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problem can be unnoticed, once the symmetry suggested by the use of
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multiple inheritance does not reflect on the present implementation.
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The solution just suggested is, in short, a generalization of the
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problem previously described. Instead of using multiple inheritance,
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let's use composition mechanisms. In order to do so, let's separate the
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operations on one point, while an object state, of the classes
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representing each one of the point types. This can be achieved through
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the definition of two new categories, bounded_coordinate and
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point_history, that will define the operations associated both to the
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memorization of previous values, and to the verification of feasible
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limits for a coordinate value. Each one of the point, bounded_point,
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history_point and bounded_history_point classes will import this
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category, using his operations so as to define the methods affecting the
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solutions that use multiple inheritance.
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