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25 \f
26 ;;;; COMPUTE-CLASS-PRECEDENCE-LIST and friends
28 ;;; Knuth section 2.2.3 has some interesting notes on this.
29 ;;;
30 ;;; What appears here is basically the algorithm presented there.
31 ;;;
32 ;;; The key idea is that we use class-precedence-description (CPD) structures
33 ;;; to store the precedence information as we proceed. The CPD structure for
34 ;;; a class stores two critical pieces of information:
35 ;;;
36 ;;; - a count of the number of "reasons" why the class can't go
37 ;;; into the class precedence list yet.
38 ;;;
39 ;;; - a list of the "reasons" this class prevents others from
40 ;;; going in until after it
41 ;;
42 ;;; A "reason" is essentially a single local precedence constraint. If a
43 ;;; constraint between two classes arises more than once it generates more
44 ;;; than one reason. This makes things simpler, linear, and isn't a problem
45 ;;; as long as we make sure to keep track of each instance of a "reason".
46 ;;;
47 ;;; This code is divided into three phases.
48 ;;;
49 ;;; - the first phase simply generates the CPD's for each of the class
50 ;;; and its superclasses. The remainder of the code will manipulate
51 ;;; these CPDs rather than the class objects themselves. At the end
52 ;;; of this pass, the CPD-SUPERS field of a CPD is a list of the CPDs
53 ;;; of the direct superclasses of the class.
54 ;;;
55 ;;; - the second phase folds all the local constraints into the CPD
56 ;;; structure. The CPD-COUNT of each CPD is built up, and the
57 ;;; CPD-AFTER fields are augmented to include precedence constraints
58 ;;; from the CPD-SUPERS field and from the order of classes in other
59 ;;; CPD-SUPERS fields.
60 ;;;
61 ;;; After this phase, the CPD-AFTER field of a class includes all the
62 ;;; direct superclasses of the class plus any class that immediately
63 ;;; follows the class in the direct superclasses of another. There
64 ;;; can be duplicates in this list. The CPD-COUNT field is equal to
65 ;;; the number of times this class appears in the CPD-AFTER field of
66 ;;; all the other CPDs.
67 ;;;
68 ;;; - In the third phase, classes are put into the precedence list one
69 ;;; at a time, with only those classes with a CPD-COUNT of 0 being
70 ;;; candidates for insertion. When a class is inserted , every CPD
71 ;;; in its CPD-AFTER field has its count decremented.
72 ;;;
73 ;;; In the usual case, there is only one candidate for insertion at
74 ;;; any point. If there is more than one, the specified tiebreaker
75 ;;; rule is used to choose among them.
94 ;; the first two branches of this COND are implementing an
95 ;; optimization for single inheritance.
129 ;class before, we can quit.
156 ;; We have to bootstrap the collection of those CPD's that
157 ;; have a zero count. Once we get going, we will maintain
158 ;; this list incrementally.
165 ;; If there are no candidates, and enough classes have been put
166 ;; into the precedence list, then we are all done. Otherwise
167 ;; it means there is a consistency problem.
172 ;; Try to find the next class to put in from among the candidates.
173 ;; If there is only one, its easy, otherwise we have to use the
174 ;; famous RPG tiebreaker rule. There is some hair here to avoid
175 ;; having to call DELETE on the list of candidates. I dunno if
176 ;; its worth it but what the hell.
197 \f
198 ;;;; support code for signalling nice error messages
204 class)
211 class)))
214 "The class ~A is a forward referenced class."
219 "The class ~A is a forward referenced class.~@
220 The class ~A is ~A."
225 "a direct superclass of the class ~A"
228 "reached from the class ~A by following~@
229 the direct superclass chain through: ~A~
230 ~% ending at the class ~A"
233 "~{~% the class ~A,~}"
248 "It is not possible to compute the class precedence list because~@
249 there ~A in the local precedence relations.~@
250 ~A because:~{~% ~A~}."
260 class))))
264 (:super
266 nil
267 "The class ~A appears in the supers of the class ~A."
270 (:in-supers
272 nil
273 "The class ~A follows the class ~A in the supers of the class ~A."
277 reasons)))
309 cycle-reasons)))