Relation pm#relation_from_class_to_collection (rdfs#class,pm#collection)
  supertype:  pm#relation_from_type_to_collection  pm#relation_from_class
  subtype:  owl#union_of__unionof (rdfs#class,rdf#list)  for unionOf(X,L) read: X is the union of the classes in the list L; i.e. if something is in any of the classes in L, it is in X, and vice versa
     subtype:  daml#disjoint_union_of (rdfs#class,rdf#list)  for disjointUnionOf(X,L) read: X is the disjoint union of the classes in the list L: (a) for any c1 and c2 in L, disjointWith(c1,c2), and (b) i.e. if something is in any of the classes in L, it is in X, and vice versa
  subtype:  owl#intersection_of (rdfs#class,rdf#list)  for intersectionOf(X,Y) read: X is the intersection of the classes in the list Y; i.e. if something is in all the classes in Y, then it's in X, and vice versa
  subtype:  owl#one_of__oneof (rdfs#class,rdf#list)  for oneOf(C,L) read everything in C is one of the things in L
  subtype:  owl#distinct_members (owl#all_different,rdf#list)
  subtype:  pm#relation_to_another_class (rdfs#class,rdfs#class+)
     subtype:  rdfs#sub_class_of__subclassof__super_class__superclas (rdfs#class,rdfs#class)  in WebKB, use the link '<'
     subtype:  owl#equivalent_class (rdfs#class,rdfs#class)  in WebKB, use the link '='
     subtype:  pm#exclusive_class__exclusiveclas (rdfs#class,rdfs#class)  the 2 classes have no common subtype/instance; in WebKB, use the link '!'
        subtype:  pm#complement_class (rdfs#class -> rdfs#class)  if something is not in one of the classes, then it is in the other, and vice versa; in WebKB, use the link '/'
     subtype:  daml#restricted_by (rdfs#class,owl#restriction)
     subtype:  sumo#disjoint_decomposition (sumo#class,sumo#class+)  a disjoint_decomposition of a class C is a set of mutually disjoint subclasses of C
        subtype:  sumo#partition (sumo#class,sumo#class+)  a partition of a class C is a set of mutually disjoint classes (a subclass partition) covering C; each instance of C is instance of exactly one of the subclasses in the partition
     subtype:  sumo#exhaustive_decomposition (sumo#class,sumo#class+)  an exhaustive_decomposition of a class C is a set of subclasses of C such that every instance of C is an instance of one of the subclasses in the set; note:  this does not necessarily mean that the elements of the set are disjoint (see sumo#partition - a partition is a disjoint exhaustive decomposition)
        subtype:  sumo#partition (sumo#class,sumo#class+)  a partition of a class C is a set of mutually disjoint classes (a subclass partition) covering C; each instance of C is instance of exactly one of the subclasses in the partition


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