use Algorithm::C3;
# merging a classic diamond
- # inheritence graph like this:
+ # inheritance graph like this:
#
# <A>
# / \
it way too often for various needs. Most of the uses I have for
C3 revolve around class building and metamodels, but it could
also be used for things like dependency resolution as well since
-it tends to do such a nice job of preserving local precendence
+it tends to do such a nice job of preserving local precedence
orderings.
Below is a brief explanation of C3 taken from the L<Class::C3>
=head2 What is C3?
C3 is the name of an algorithm which aims to provide a sane method
-resolution order under multiple inheritence. It was first introduced
-in the langauge Dylan (see links in the L<SEE ALSO> section), and
-then later adopted as the prefered MRO (Method Resolution Order)
+resolution order under multiple inheritance. It was first introduced
+in the language Dylan (see links in the L<SEE ALSO> section), and
+then later adopted as the preferred MRO (Method Resolution Order)
for the new-style classes in Python 2.3. Most recently it has been
adopted as the 'canonical' MRO for Perl 6 classes, and the default
MRO for Parrot objects as well.
=head2 How does C3 work.
-C3 works by always preserving local precendence ordering. This
+C3 works by always preserving local precedence ordering. This
essentially means that no class will appear before any of it's
-subclasses. Take the classic diamond inheritence pattern for
+subclasses. Take the classic diamond inheritance pattern for
instance:
<A>
The C3 MRO algorithm however, produces the following MRO (D, B, C, A),
which does not have this same issue.
-This example is fairly trival, for more complex examples and a deeper
-explaination, see the links in the L<SEE ALSO> section.
+This example is fairly trivial, for more complex examples and a deeper
+explanation, see the links in the L<SEE ALSO> section.
=head1 FUNCTION
projects / gitmo/Algorithm-C3.git / commitdiff