Relation sumo#sub_list__sublist__sub_list_of (sumo#list,sumo#list) the 1st argument is a sublist of the 2nd, i.e. every element of the 1st is an element of the 2nd and the elements that are common to both lists have the same order in both lists
subtype: sumo#initial_list the 1st argument (?L1) is a sublist of the 2nd (?L2), and (sumo#list_order_fn ?L1 ?NUMBER) returns the same value as (sumo#list_order_fn ?L2 ?N) for all of the values of ?N over which (sumo#list_order_fn ?L1 ?N) is defined
type: pm#binary_predicate_type the class of predicates relating two items - its valence is two
type: pm#partial_ordering_relation_type binary_relation that is reflexive, antisymmetric and transitive
supertype: pm#sub_collection_of (pm#collection,pm#collection) DO NOT use this type; it only exists because the SUMO does not respect common reading conventions of parameters
supertype: pm#relation_between_collections (pm#collection,pm#collection+)
supertype: pm#relation_from_collection (pm#collection,*)
supertype: pm#relation_from/to_thing_of_common_kind (*) this type permits to categorize relations according to their signatures and hence offers (i) a concise way to set essential exclusion relations, and (ii) a systematic and easy-to-follow categorization
>part of: pm#relation__related_thing__relatedthing___related_with type for any relation (unary, binary, ..., *-ary) and instance of pm#relation_type
supertype: pm#what_relation (*)
supertype: pm#wh-/how_relation (*) this type permits to categorize relations according to the usual who/what/why/where/when/how questions ; this is a traditional but very subjective and ineffective way of categorizing relations
>part of: pm#relation__related_thing__relatedthing___related_with type for any relation (unary, binary, ..., *-ary) and instance of pm#relation_type
supertype: pm#relation_to_collection (*,pm#collection)
supertype: pm#relation_from/to_thing_of_common_kind (*) this type permits to categorize relations according to their signatures and hence offers (i) a concise way to set essential exclusion relations, and (ii) a systematic and easy-to-follow categorization
supertype: pm#what_relation (*)
supertype: pm#partial_ordering_relation (?,?) this category only serves structuration purposes: it is instance of pm#partial_ordering_relation_type which is not instance of pm#class_of_inheritable_relation_type
supertype: pm#reflexive_relation__reflexiverelation (?,?) this category only serves structuration purposes: it is instance of pm#reflexive_relation_type which is not instance of pm#class_of_inheritable_relation_type
supertype: pm#binary_relation_with_particular_mathematical_property (?,?)
supertype: pm#relation_with_particular_mathematical_property (*)
supertype: pm#relation_with_particular_property (*) this rather fuzzy type permits to group categorization schemes less common than those covered by the previous sibling categories
>part of: pm#relation__related_thing__relatedthing___related_with type for any relation (unary, binary, ..., *-ary) and instance of pm#relation_type
supertype: pm#antisymmetric_relation__antisymmetricrelation (?,?) this category only serves structuration purposes: it is instance of pm#antisymmetric_relation_type which is not instance of pm#class_of_inheritable_relation_type
supertype: pm#binary_relation_with_particular_mathematical_property (?,?)
supertype: pm#transitive_relation (?,?) this category only serves structuration purposes: it is instance of pm#transitive_relation_type which is not instance of pm#class_of_inheritable_relation_type
supertype: pm#binary_relation_with_particular_mathematical_property (?,?)