; Thu Feb 19 12:20:47 PST 2004 ; ;+ (version "1.8") ;+ (build "Build 1074") (defclass %3ACLIPS_TOP_LEVEL_SLOT_CLASS (is-a USER) (role concrete) (multislot industryOfArea_1 ;+ (comment "\"(&%industryOfArea ?AREA ?SECTOR) means that the &%GeopoliticalArea ?AREA produces goods or services in the economic area ?SECTOR.\"") (type INSTANCE) ;+ (allowed-classes IndustryAttribute) (create-accessor read-write)) (multislot developmentalForm_3 ;+ (comment "\"(&%developmentalForm ?OBJECT ?FORM) means that ?FORM is an earlier stage in the individual maturation of ?OBJECT. For example, tadpole and caterpillar are &%developmentalForms of frogs and butterflies, respectively.\"") (type INSTANCE) ;+ (allowed-classes DevelopmentalAttribute) ;+ (subslot-of attribute_2) (create-accessor read-write)) (single-slot EndFn_3 ;+ (comment "\"A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval ends.\"") (type INSTANCE) ;+ (allowed-classes TimePoint) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot hole_3 ;+ (comment "\"(&%hole ?HOLE ?OBJ) means that ?HOLE is a &%Hole in ?OBJ. A &%Hole is a fillable body located at the &%surface an &%Object.\"") (type INSTANCE) ;+ (allowed-classes SelfConnectedObject) (create-accessor read-write)) (single-slot subsumingExternalConcept ;+ (comment "\"(&%subsumingExternalConcept ?STRING ?THING ?LANGUAGE) means that the SUMO concept ?THING subsumes the meaning of ?STRING in ?LANGUAGE, i.e. the concept ?THING is broader in meaning than ?STRING.\"") (type INSTANCE) ;+ (allowed-classes %3ALanguage) ;+ (cardinality 0 1) ;+ (subslot-of relatedExternalConcept) (create-accessor read-write)) (single-slot interiorPart_2 ;+ (comment "\"(&%interiorPart ?OBJ1 ?OBJ2) means that ?OBJ1 is part ?OBJ2 and there is no overlap between ?OBJ1 and any &%superficialPart ?OBJ2.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of part_2) (create-accessor read-write)) (multislot loss_1 ;+ (comment "\"The amount by which the cost of an investment or business operation exceeds its return, i.e. the negative quantity left after subtracting for all expenses.\"") (type INSTANCE) ;+ (allowed-classes CurrencyMeasure) (create-accessor read-write)) (single-slot WealthFn_1 ;+ (comment "\"A &%UnaryFunction that maps an &%Agent to a &%CurrencyMeasure specifying the value of the property owned by the &%Agent. Note that this &%Function is generally used in conjunction with the &%Function &%PropertyFn, e.g. (&%WealthFn (&%PropertyFn BillGates)) would return the monetary value of the sum of Bill Gates' holdings.\"") (type INSTANCE) ;+ (allowed-classes CurrencyMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot consistent_2 ;+ (comment "\"(&%consistent ?PROP1 ?PROP2) means that the two &%Propositions ?PROP1 and ?PROP2 are consistent with one another, i.e. it is possible for both of them to be true at the same time.\"") (type INSTANCE) ;+ (allowed-classes Proposition) ;+ (inverse-slot consistent_2) (create-accessor read-write)) (single-slot %3ADomain1Type ;+ (comment "Specifies whether the first domain argument is an instance of the specified class or a subclass.\n In SUMO, this signals whether the proposition describing the domains of the relation use the relation name \"domain\" or \"domainSubclass\".") (type SYMBOL) (allowed-values Instance Class) ;+ (cardinality 0 1) ;+ (associated-facet UBLinv018_00290) (create-accessor read-write)) (single-slot PeriodicalIssueFn_2 ;+ (comment "\"A &%BinaryFunction that maps a subclass of &%Periodical and a number to all of the issues of the &%Periodical corresponding to the number.\"") (type SYMBOL) ;+ (allowed-parents Periodical) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot CeilingFn_2 ;+ (comment "\"(&%CeilingFn ?NUMBER) returns the smallest &%Integer greater than or equal to the &%RealNumber ?NUMBER.\"") (type INSTANCE) ;+ (allowed-classes Integer) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot MegaFn_2 ;+ (comment "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000 units of the original &%UnitOfMeasure. For example, (&%MegaFn &%Hertz) is 1,000,000 &%Hertz.\"") (type INSTANCE) ;+ (allowed-classes UnitOfMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot isRepresentedBy_4 ;+ (comment "\"isRepresentedBy relates a Proposition to one or more ContentBearingObjects (physical objects) that express that proposition. The object may be a Group of objects, such as a set of identical books.\"") (type INSTANCE) ;+ (allowed-classes ContentBearingObject) ;+ (inverse-slot containsInformation_2) (create-accessor read-write)) (multislot minCardinalityAtClasses_1 ;+ (comment "\"(minCardinalityAtClasses ?CLASS1 ?REL ?NUMBER ?CLASS2) means that, for any given instance ?INST1 of ?CLASS1 ?REL, there will be at least ?NUMBER instances of ?CLASS2 related to ?INST1 by the relation ?REL.\"") (type SYMBOL) ;+ (allowed-parents Entity) (create-accessor read-write)) (multislot neighbor_3 ;+ (comment "\"(&%neighbor ?PERSON1 ?PERSON2) means that ?PERSON1 is a neighbor of ?PERSON2, i.e. ?PERSON1 and ?PERSON2 have their &%homes &%Near one another.\"") (type INSTANCE) ;+ (allowed-classes Human) ;+ (inverse-slot neighbor_3) (create-accessor read-write)) (multislot equivalenceRelationOn_2 ;+ (comment "\"A &%BinaryRelation is an &%equivalenceRelationOn a &%SetOrClass only if the relation is &%reflexiveOn the &%SetOrClass and it is both a &%TransitiveRelation and a &%SymmetricRelation.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) (create-accessor read-write)) (single-slot exactlyLocated_2 ;+ (comment "\"The actual, minimal location of an Object. This is a subrelation of the more general &%Predicate &%located.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of located_2) (create-accessor read-write)) (multislot citizen_2 ;+ (comment "\"(&%citizen ?PERSON ?NATION) means that the &%Human ?PERSON is a citizen of &%Nation ?NATION.\"") (type INSTANCE) ;+ (allowed-classes Nation) (create-accessor read-write)) (single-slot protonNumber_3 ;+ (comment "\"(&%protonNumber ?SUBSTANCE ?NUMBER) means that the &%PureSubstance ?SUBSTANCE has the number of &%Protons ?NUMBER.\"") (type INSTANCE) ;+ (allowed-classes PositiveInteger) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot holdsInContext_1 ;+ (comment "\"holdsInContext means that there is some context in which a particular assertion is true.\"") (type INSTANCE) ;+ (allowed-classes Context) (create-accessor read-write)) (single-slot date_3 ;+ (comment "\"A &%BinaryPredicate that specifies a &%TimePosition in absolute calendar time, at the resolution of one day, for a particular &%Object or &%Process.\"") (type INSTANCE) ;+ (allowed-classes Day) ;+ (cardinality 0 1) ;+ (subslot-of time_3) (create-accessor read-write)) (single-slot %3AhasDefaultValue ;+ (comment "\"(:hasDefaultValue ?REL ?CLASS ?VAL) is used to specify that, for every instance of a particular class, the value of the relation ?REL for every instance of class ?CLASS is ?VAL, unless it is overridden by an explicit assignment of the value. In Protege, such overrides can be accomplished by simply changing the value of the instance. For the SKIF files, we need an explicit override relation so that the condition for using the default can be described logically rather than programmatically. The override can be accomplished by using :hasDefaultValue with the subclass as argument, or, if one wants an override that cannot itself be overridden, the relation used is ':hasClassValue'.\"") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot premise_2 ;+ (comment "\"(&%premise ?ARGUMENT ?PROPOSITION) means that the &%Proposition ?PROPOSITION is an explicit assumption of the &%Argument ?ARGUMENT.\"") (type INSTANCE) ;+ (allowed-classes Proposition) (create-accessor read-write)) (multislot hasField_3 ;+ (comment "hasField relates a StructuredText to the fields that comprise its structure. \nFor multiple subfield, see hasField_1, hasField_2, etc.") (type INSTANCE) ;+ (allowed-classes) (cardinality 2 ?VARIABLE) (create-accessor read-write)) (multislot containsInformation_2 ;+ (comment "\"A subrelation of &%represents. This predicate relates a &%ContentBearingObject to the &%Proposition that is expressed by the &%ContentBearingObject. Examples include the relationships between a physical novel and its story and between a printed score and its musical content.\"") (type INSTANCE) ;+ (allowed-classes Proposition) ;+ (inverse-slot isRepresentedBy_4) ;+ (subslot-of represents) (create-accessor read-write)) (multislot holdsDuring_2 ;+ (comment "\"(&%holdsDuring ?TIME ?FORMULA) means that the proposition denoted by ?FORMULA is true in the time frame ?TIME. Note that this implies that ?FORMULA is true at every &%TimePoint which is a &%temporalPart of ?TIME.\"") (type INSTANCE) ;+ (allowed-classes Formula) (create-accessor read-write)) (multislot patientMedical_1 ;+ (comment "\"The relation of receiving medical care from a recognized medical practitioner. (&%patientMedical ?PATIENT ?DOCTOR) means that ?PATIENT is the patient of ?DOCTOR. Note that argument type restriction on the second argument is &%CognitiveAgent to allow for cases where someone is the patient of an &%Organization, viz. a &%CareOrganization.\"") (type INSTANCE) ;+ (allowed-classes CognitiveAgent) (create-accessor read-write)) (single-slot accountHolder ;+ (comment "\"(&%accountHolder ?Account ?Agent) means that ?Agent is the account holder of the &%FinancialAccount ?Account.\"") (type INSTANCE) ;+ (allowed-classes CognitiveAgent) ;+ (cardinality 0 1) ;+ (subslot-of agreementMember_2) (create-accessor read-write)) (multislot parallel_1 ;+ (comment "\"(&%parallel ?LINE1 ?LINE2) means that the &%OneDimensionalFigures ?LINE1 and ?LINE2 are parallel to one another, i.e. they are equidistant from one another at every point.\"") (type INSTANCE) ;+ (allowed-classes OneDimensionalFigure) (create-accessor read-write)) (single-slot MultiplicationFn_5 ;+ (comment "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%MultiplicationFn ?NUMBER1 ?NUMBER2) is the arithmetical product of these numbers.\"") (type INSTANCE) ;+ (allowed-classes Quantity) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot inList_3 ;+ (comment "\"The analog of &%element and &%instance for &%Lists. (&%inList ?OBJ ?LIST) means that ?OBJ is in the &%List ?LIST. For example, (&%inList &%Tuesday (&%ListFn &%Monday &%Tuesday &%Wednesday)) would be true.\"") (type INSTANCE) ;+ (allowed-classes List) (create-accessor read-write)) (multislot hasPurpose_2 ;+ (comment "\"This &%Predicate expresses the concept of a conventional goal, i.e. a goal with a neutralized agent's intention. Accordingly, (&%hasPurpose ?THING ?FORMULA) means that the instance of &%Physical ?THING has, as its purpose, the &%Proposition expressed by ?FORMULA. Note that there is an important difference in meaning between the &%Predicates &%hasPurpose and &%result. Although the second argument of the latter can satisfy the second argument of the former, a conventional goal is an expected and desired outcome, while a result may be neither expected nor desired. For example, a machine process may have outcomes but no goals, aimless wandering may have an outcome but no goal; a learning process may have goals with no outcomes, and so on.\"") (type INSTANCE) ;+ (allowed-classes Formula) (create-accessor read-write)) (multislot %3AClassPredicates ;+ (comment ":ClassPredicates shows the list of predicates which are asserted on a class but do not have their own facet pane in the class display window. They are given as strings and do not directly point to the classes or instances whjich may be values of the predicate arguments.") (type STRING) (create-accessor read-write)) (multislot angularMeasure_2 ;+ (comment "\"(&%angularMeasure ?ANGLE ?MEASURE) means that the two-dimensional geometric angle ?ANGLE has the &%PlaneAngleMeasure of ?MEASURE.\"") (type INSTANCE) ;+ (allowed-classes PlaneAngleMeasure) (create-accessor read-write)) (multislot partialOrderingOn_2 ;+ (comment "\"A &%BinaryRelation is a partial ordering on a &%SetOrClass only if the relation is &%reflexiveOn the &%SetOrClass, and it is both an &%AntisymmetricRelation, and a &%TransitiveRelation.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) (create-accessor read-write)) (multislot totalOrderingOn_2 ;+ (comment "\"A &%BinaryRelation ?REL is a total ordering on a &%SetOrClass only if it is a partial ordering for which either (?REL ?INST1 ?INST2) or (?REL ?INST2 ?INST1) for every ?INST1 and ?INST2 in the &%SetOrClass.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) (create-accessor read-write)) (single-slot manner_2 ;+ (comment "\"(&%manner ?PROCESS ?MANNER) means that the &%Process ?PROCESS is qualified by the &%Attribute ?MANNER. The &%Attributes of &%Processes are usually denoted by adverbs and include things like the speed of the wind, the style of a dance, or the intensity of a sports competition.\"") (type INSTANCE) ;+ (allowed-classes Attribute) ;+ (cardinality 0 1) ;+ (subslot-of property_1) (create-accessor read-write)) (single-slot CardinalityFn_3 ;+ (comment "\"(CardinalityFn ?CLASS) returns the number of instances in the &%SetOrClass or &%Collection ?CLASS.\"") (type INSTANCE) ;+ (allowed-classes Number) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot createdBy_1 ;+ (comment "\"createdBy is used to assert that a particular instance of an entity was created in an action which has a particular agent as its main actor. In this relation, the event itself is unspecified.\"") (type INSTANCE) ;+ (allowed-classes CognitiveAgent) (create-accessor read-write)) (single-slot exhaustiveAttribute_2 ;+ (comment "\"This predicate relates a &%Class to a set of &%Attributes, and it means that the elements of this set exhaust the instances of the &%Class. For example, (&%exhaustiveAttribute &%PhysicalState &%Solid &%Liquid &%Gas) means that there are only three instances of the class &%PhysicalState, viz. &%Solid, &%Liquid, and &%Gas.\"") (type INSTANCE) ;+ (allowed-classes %3ARow) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot component ;+ (comment "\"A specialized common sense notion of part for heterogeneous parts of complexes. (&%component ?COMPONENT ?WHOLE) means that ?COMPONENT is a component of ?WHOLE. Examples of component include the doors and walls of a house, the states or provinces of a country, or the limbs and organs of an animal. Compare &%piece, which is also a subrelation of &%part.\"") (type INSTANCE) ;+ (allowed-classes CorpuscularObject) ;+ (cardinality 0 1) ;+ (subslot-of part_2) (create-accessor read-write)) (single-slot RecurrentTimeIntervalFn_2 ;+ (comment "\"A function that is useful for generating recurring time intervals. For example, (&%RecurrentTimeIntervalFn (&%HourFn 6 &%Day) (&%HourFn 12 &%Day)) returns the &%Class of &%TimeIntervals beginning at 6 in the morning and ending at 12 noon. For another example, (&%RecurrentTimeInterval &%Saturday &%Sunday) returns the &%Class of all weekends. For still another example,(&%RecurrentTimeInterval &%June &%August) returns the &%Class containing the academic summer period.\"") (type SYMBOL) ;+ (allowed-parents RecurrentTimeInterval) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot hasField_2 ;+ (comment "hasField relates a StructuredText to the fields that comprise its structure. \nFor multiple subfield, see hasField_1, hasField_2, etc.") (type INSTANCE) ;+ (allowed-classes) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot familyRelation_2 ;+ (comment "\"A very general &%Predicate for biological relationships. (&%familyRelation ?ORGANISM1 ?ORGANISM2) means that ?ORGANISM1 and ?ORGANISM2 are biologically derived from a common ancestor.\"") (type INSTANCE) ;+ (allowed-classes Organism) ;+ (inverse-slot familyRelation_2) (create-accessor read-write)) (multislot partition2 ;+ (comment "A &%partition of a class C is a set of mutually &%disjoint classes (a subclass partition) which covers C. Every instance of C is an instance of exactly one of the subclasses \nin the partition.") (type INSTANCE) ;+ (allowed-classes %3AUBL-CLASS %3ATHING) ;+ (subslot-of partition) (create-accessor read-write)) (single-slot FutureFn_3 ;+ (comment "\"A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval which it meets and which ends at &%PositiveInfinity.\"") (type INSTANCE) ;+ (allowed-classes TimeInterval) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot hasPostalCode_1 ;+ (comment "\"hasPostalCode is not exactly the inverse of relation postalCode because the code value is a string, not an integer.\"") (type INSTANCE) ;+ (allowed-classes PostOfficeCode) (create-accessor read-write)) (multislot orbits_2 ;+ (comment "\"(&%orbits ?SATELLITE ?FOCUS) means that the &%Object ?SATELLITE revolves around the &%AstronomicalBody ?FOCUS.\"") (type INSTANCE) ;+ (allowed-classes AstronomicalBody) (create-accessor read-write)) (single-slot Name ;+ (comment "UBL-element Jul 26-03 (UBL-ID=UBL000003):\n") (type INSTANCE) ;+ (allowed-classes) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot lessThanOrEqualTo_3 ;+ (comment "\"(&%lessThanOrEqualTo ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than or equal to the &%Quantity ?NUMBER2.\"") (type INSTANCE) ;+ (allowed-classes Quantity) ;+ (inverse-slot greaterThanOrEqualTo_3) (create-accessor read-write)) (single-slot %3AinLanguage ;+ (comment "inLanguage relates a word -- a string of characters -- to the language in which it is a word.\nThe language may be natural or artificial -- e.g. the terms in an ontology are considered a language for this purpose.") (type INSTANCE) ;+ (allowed-classes %3AHumanLanguage) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot time_3 ;+ (comment "\"This relation holds between an instance of &%Physical and an instance of &%TimePosition just in case the temporal lifespan of the former includes the latter. The constants &%located and &%time are the basic spatial and temporal predicates, respectively.\"") (type INSTANCE) ;+ (allowed-classes TimePosition) (create-accessor read-write)) (single-slot %3ADomain4Type ;+ (comment "The type of the fifth argument, class or instance.\n Specifies whether the first domain argument is an instance of the specified class or a subclass.\n In SUMO, this signals whether the proposition describing the domains of the relation use the relation name \"domain\" or \"domainSubclass\".") (type SYMBOL) (allowed-values Class Instance) ;+ (cardinality 0 1) ;+ (associated-facet UBLinv018t_00306) (create-accessor read-write)) (single-slot grasps_2 ;+ (comment "\"The state of grasping an &%Object. (&%grasps ?ANIMAL ?OBJ) means that the &%Animal ?ANIMAL is intentionally holding on to the &%Object ?OBJ.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of meetsSpatially_2) (create-accessor read-write)) (multislot hasField_6 ;+ (comment "hasField relates a StructuredText to the fields that comprise its structure. \nFor multiple subfield, see hasField1, hasField2, etc.") (type INSTANCE) ;+ (allowed-classes) (cardinality 2 ?VARIABLE) (create-accessor read-write)) (single-slot GigaFn_2 ;+ (comment "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000,000 units of the original &%UnitOfMeasure. For example, (&%GigaFn &%Hertz) is 1,000,000,000 &%Hertz.\"") (type INSTANCE) ;+ (allowed-classes UnitOfMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot employs_1 ;+ (comment "\"(&%employs ?ORG ?PERSON) means that ?ORG has hired ?PERSON and currently retains ?PERSON, on a salaried or contractual basis, to provide services in exchange for monetary compensation.\"") (type INSTANCE) ;+ (allowed-classes CognitiveAgent) (create-accessor read-write)) (multislot interestEarned_1 ;+ (comment "\"(&%interestEarned ?Account ?Interest ?Period) means that ?Interest is the amount earned on the &%FinancialAccount ?Account, for the &%TimeInterval ?Period.\"") (type INSTANCE) ;+ (allowed-classes TimeInterval) (create-accessor read-write)) (single-slot SignumFn_2 ;+ (comment "\"(SignumFn ?NUMBER) denotes the sign of ?NUMBER. This is one of the following values: -1, 1, or 0.\"") (type INSTANCE) ;+ (allowed-classes Integer) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot pathLength_3 ;+ (comment "\"A &%BinaryPredicate that specifies the length (in number of &%GraphNodes) of a &%GraphPath. (&%pathLength ?PATH ?NUMBER) means that there are ?NUMBER nodes in the &%GraphPath ?PATH.\"") (type INSTANCE) ;+ (allowed-classes PositiveInteger) (create-accessor read-write)) (single-slot ExtensionFn_2 ;+ (comment "\"A &%UnaryFunction that maps an &%Attribute into the &%Class whose condition for membership is the &%Attribute.\"") (type INSTANCE) ;+ (allowed-classes Class) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot %3ADomain2Type ;+ (comment "Specifies whether the first domain argument is an instance of the specified class or a subclass.\n In SUMO, this signals whether the proposition describing the domains of the relation use the relation name \"domain\" or \"domainSubclass\".") (type SYMBOL) (allowed-values Instance Class) ;+ (cardinality 0 1) ;+ (associated-facet UBLinv018_00288) (create-accessor read-write)) (single-slot ReciprocalFn_3 ;+ (comment "\"(ReciprocalFn ?NUMBER) is the reciprocal element of ?NUMBER with respect to the multiplication operator (&%MultiplicationFn), i.e. 1/?NUMBER. Not all numbers have a reciprocal element. For example the number 0 does not. If a number ?NUMBER has a reciprocal ?RECIP, then the product of ?NUMBER and ?RECIP will be 1, e.g. 3*1/3 = 1. The reciprocal of an element is &%equal to applying the &%ExponentiationFn function to the element to the power -1.\"") (type INSTANCE) ;+ (allowed-classes Quantity) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot creates_1 ;+ (comment "\"relates a physical event to an entity whose existence may be caused by the event. The entity usually comes into existence as a result of the event. The entity may be a new state, a physical embodiment of a mental entity (such as a musical composition), or a physical object. Note that this is a time-dependent relation, and therefore strictly abstract entities cannot be created, though their physical embodiments can. No creation event can be instantaneous, it must proceed over some time interval.\"") (type INSTANCE) ;+ (allowed-classes Physical) ;+ (subslot-of result) (create-accessor read-write)) (multislot %3D%3E_2 ;+ (comment "\"The truth-functional connective of implication.\"") (type INSTANCE) ;+ (allowed-classes Formula) (create-accessor read-write)) (multislot origin_1 ;+ (comment "\"(&%origin ?PROCESS ?SOURCE) means that ?SOURCE indicates where the ?Process began. Note that this relation implies that ?SOURCE is present at the beginning of the process, but need not participate throughout the process. For example, the submarine is the &%origin in the following proposition: the missile was launched from a submarine.\"") (type INSTANCE) ;+ (allowed-classes Object) (create-accessor read-write)) (single-slot financialAccount ;+ (comment "\"A formal banking, brokerage, or business relationship established to provide for regular services, dealings, and other financial transactions. (&%accountAt ?ACCOUNT ?ORG) means that ?ACCOUNT is a financial account opened at the &%FinancialOrganization ?ORG.\"") (type INSTANCE) ;+ (allowed-classes FinancialOrganization) ;+ (cardinality 0 1) ;+ (subslot-of agreementMember_2) (create-accessor read-write)) (single-slot atomicNumber ;+ (comment "\"(&%atomicNumber ?ELEMENT ?NUMBER) means that the &%ElementalSubstance ?ELEMENT has the atomic number ?NUMBER. The atomic number is the number of &%Protons in the nucleus of an &%Atom.\"") (type INSTANCE) ;+ (allowed-classes PositiveInteger) ;+ (cardinality 0 1) ;+ (subslot-of protonNumber_3) (create-accessor read-write)) (multislot subField_2 ;+ (comment "\"(&%subField ?FIELD1 ?FIELD2) means that ?FIELD1 is a proper part of the &%FieldOfStudy ?FIELD2. For example, &%Physiology is a &%subField of &%Biology.\"") (type INSTANCE) ;+ (allowed-classes FieldOfStudy) ;+ (subslot-of subProposition_3) (create-accessor read-write)) (multislot geographicSubregion_3 ;+ (comment "\"(&%geographicSubregion ?PART ?WHOLE) means that the &%GeographicArea ?PART is part of the &%GeographicArea ?WHOLE.\"") (type INSTANCE) ;+ (allowed-classes GeographicArea) ;+ (subslot-of properPart_2 located_2) (create-accessor read-write)) (multislot equal_3 ;+ (comment "\"(equal ?ENTITY1 ?ENTITY2) is true just in case ?ENTITY1 is identical with ?ENTITY2.\"") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (inverse-slot equal_3) (create-accessor read-write)) (multislot subCollection_2 ;+ (comment "\"(&%subCollection ?COLL1 ?COLL2) means that the &%Collection ?COLL1 is a proper part of the &%Collection ?COLL2.\"") (type INSTANCE) ;+ (allowed-classes Collection) (create-accessor read-write)) (single-slot side_1 ;+ (comment "\"(&%side ?SIDE ?OBJECT) means that ?SIDE is a side of the object, as opposed to the &%top or &%bottom.\"") (type INSTANCE) ;+ (allowed-classes SelfConnectedObject) ;+ (cardinality 0 1) ;+ (subslot-of superficialPart_2) (create-accessor read-write)) (single-slot LeastCommonMultipleFn_3 ;+ (comment "\"(&%LeastCommonMultipleFn ?NUMBER1 ?NUMBER2 ... ?NUMBER) returns the least common multiple of ?NUMBER1 through ?NUMBER.\"") (type INSTANCE) ;+ (allowed-classes %3ARow) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot agent_1 ;+ (comment "\"(&%agent ?PROCESS ?AGENT) means that ?AGENT is an active determinant, either animate or inanimate, of the &%Process ?PROCESS, with or without voluntary intention. For example, water is the &%agent of erosion in the following proposition: the water eroded the coastline. For another example, Eve is an &%agent in the following proposition: Eve bit an apple.\"") (type INSTANCE) ;+ (allowed-classes Agent) (create-accessor read-write)) (multislot isaModalAttributeOf_1 ;+ (comment "\"The inverse of hasModalAttribute - it relates a NormativeAttribute to a proposition that it applies to.\"") (type INSTANCE) ;+ (allowed-classes Assertion) ;+ (inverse-slot hasModalAttribute_3) (create-accessor read-write)) (multislot hasOptionalPart_1 ;+ (comment "\"(hasOptionalPart ?CLASS1 ?CLASS2) means that there is some instance of ?CLASS1 which has a part which is an instance of ?CLASS2. More informally, this relation may be stated 'instances of CLASS1 may have an instance of CLASS 2 as a part'. Note that not every subclass of CLASS1 will necessarily have instances with parts of type CLASS2. A car manufacturer may sell a line of 'Belcher' autos with GPS as an optional part. But the 'Belcher' (a subclass of Belcher) may not have that part as an option. Thus it is true that (hasOptionalPart Belcher GPS) but it is not true that (hasOptionalPart BelcherQQ GPS). Thus the relation is not an InheritableClassRelation. If there are subclasses of Belcher that have optional GPS, that assertion must be made on that subclass explicitly.\"") (type SYMBOL) ;+ (allowed-parents Entity) (create-accessor read-write)) (single-slot unitNumber ;+ (comment "\"(&%unitNumber ?UNIT ?ADDRESS) means that the &%StationaryArtifact ?UNIT is part of the address ?ADDRESS.\"") (type INSTANCE) ;+ (allowed-classes Address) ;+ (cardinality 0 1) ;+ (subslot-of address_1) (create-accessor read-write)) (single-slot half ;+ (comment "\"(&%half ?HALF ?WHOLE) means that ?HALF is one half of ?WHOLE.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of part_2) (create-accessor read-write)) (single-slot leader_3 ;+ (comment "\"(&%leader ?ORGANIZATION ?PERSON) means that the leader of ?ORGANIZATION is ?PERSON.\"") (type INSTANCE) ;+ (allowed-classes Agent) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot equivalentContentClass_1 ;+ (comment "\"A &%BinaryPredicate that relates two subclasses of &%ContentBearingObject. (&%equivalentContentClass ?CLASS1 ?CLASS2) means that the content expressed by each instance of ?CLASS1 is also expressed by each instance of ?CLASS2, and vice versa. An example would be the relationship between English and Russian editions of Agatha Christie's 'Murder on the Orient Express'. Note that (&%equivalentContentClass ?CLASS1 ?CLASS2) implies (&%subsumesContentClass ?CLASS1 ?CLASS2) and (&%subsumesContentClass ?CLASS2 ?CLASS1).\"") (type SYMBOL) ;+ (allowed-parents ContentBearingObject) ;+ (inverse-slot equivalentContentClass_1) ;+ (subslot-of subsumesContentClass_2) (create-accessor read-write)) (single-slot located_2 ;+ (comment "\"(&%located ?PHYS ?OBJ) means that ?PHYS is &%partlyLocated at ?OBJ, and there is no &%part or &%subProcess of ?PHYS that is not &%located at ?OBJ.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of partlyLocated_3) (create-accessor read-write)) (multislot lineMeasure_2 ;+ (comment "\"(&%lineMeasure ?LINE ?MEASURE) means that the straight line ?LINE has the &%LengthMeasure of ?MEASURE.\"") (type INSTANCE) ;+ (allowed-classes LengthMeasure) (create-accessor read-write)) (multislot considers_1 ;+ (comment "\"(&%considers ?AGENT ?FORMULA) means that ?AGENT considers or wonders about the truth of the proposition expressed by ?FORMULA.\"") (type INSTANCE) ;+ (allowed-classes Formula) ;+ (subslot-of inScopeOfInterest_2) (create-accessor read-write)) (single-slot AbstractionFn_2 ;+ (comment "\"A &%UnaryFunction that maps a &%Class into the instance of &%Attribute that specifies the condition(s) for membership in the &%Class.\"") (type INSTANCE) ;+ (allowed-classes Attribute) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot leaderPosition_2 ;+ (comment "\"(&%leaderPosition ?ORG ?ROLE) means that in the organization ?ORG, the leader is the person who holds the &%Position ?ROLE in the organization.\"") (type INSTANCE) ;+ (allowed-classes Position) (create-accessor read-write)) (multislot dependentGeopoliticalArea_2 ;+ (comment "\"(&%dependentGeopoliticalArea ?AREA1 ?AREA2) means that ?AREA1 is a geopolitical possession of the &%GeopoliticalArea ?AREA2 and is not a &%geopoliticalSubdivision of ?AREA2. For example, (&%dependentGeopoliticalArea &%Guam &%UnitedStates), because Guam is a territory of the &%UnitedStates, not one of the fifty U.S. states. Contrast &%primaryGeopoliticalSubdivision.\"") (type INSTANCE) ;+ (allowed-classes GeopoliticalArea) (create-accessor read-write)) (multislot %3AInstanceAssertions ;+ (comment "assertions at the instance level that reference this instance.") (type INSTANCE) ;+ (allowed-classes %3AAssertion) (create-accessor read-write)) (multislot stockOf_1 ;+ (comment "\"(&%stockOf ?Stock ?Corporation) means that ?Stock is issued by the &%Corporation ?Corporation.\"") (type INSTANCE) ;+ (allowed-classes Corporation) (create-accessor read-write)) (single-slot distance_3 ;+ (comment "\"(&%distance ?OBJ1 ?OBJ2 ?QUANT) means that the shortest distance between the two objects ?OBJ1 and ?OBJ2 is ?QUANT. Note that the difference between the predicates &%length and &%distance is that the &%length is used to state the &%LengthMeasure of one of the dimensions of a single object, while &%distance is used to state the &%LengthMeasure that separates two distinct objects.\"") (type INSTANCE) ;+ (allowed-classes LengthMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot lessThan_4 ;+ (comment "\"(&%lessThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is less than the &%Quantity ?NUMBER2.\"") (type INSTANCE) ;+ (allowed-classes Quantity) ;+ (inverse-slot greaterThan_4) (create-accessor read-write)) (single-slot hasField ;+ (comment "hasField relates a StructuredText to the fields that comprise its structure. ") (type INSTANCE) ;+ (allowed-classes) ;+ (cardinality 1 1) (create-accessor read-write)) (multislot hasIntendedAudience_1 ;+ (comment "\"hasIntendedAudience relates a Communication, which is an abstract Proposition, to the audience to whom the author of the Communication has directed it. This is not necessarily identical to the group of agents that read or experience the communication.\"") (type INSTANCE) ;+ (allowed-classes AgentGroup) (create-accessor read-write)) (single-slot %3ADomain2Value ;+ (comment "The instance value for the third argument of a higher-arity relation. It is an instance of :Domain2Class.") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (cardinality 0 1) ;+ (associated-facet SUMO152_00100) (create-accessor read-write)) (multislot entails_2 ;+ (comment "\"The operator of logical entailment. (&%entails ?FORMULA1 ?FORMULA2) means that ?FORMULA2 can be derived from ?FORMULA1 by means of the proof theory of SUO-KIF.\"") (type INSTANCE) ;+ (allowed-classes Formula) (create-accessor read-write)) (multislot hasNecessaryPart_2 ;+ (comment "\"(hasNecessaryPart ?CLASS1 ?CLASS2) means that every instance of ?CLASS1 has a part which is an instance of ?CLASS2. Since this is an InheritableClassRelation, then it is true of every instance of every subclass of ?CLASS1 that each such instance also has a part which is an instance of ?CLASS2. See hasOptionalPart for an alternative part relation.\"") (type SYMBOL) ;+ (allowed-parents Entity) (create-accessor read-write)) (multislot disapproves_1 ;+ (comment "\"(&%disapproves ?AGENT ?FORMULA) means that ?AGENT has a feeling of antipathy to the state of affairs represented by ?FORMULA, i.e. ?AGENT believes that the realization of ?FORMULA will thwart one of his/her goals. Note that there is no implication that what is disapproved of by an agent is not already true.\"") (type INSTANCE) ;+ (allowed-classes Formula) ;+ (subslot-of inScopeOfInterest_2) (create-accessor read-write)) (single-slot %3ADomain3Value ;+ (comment "The instance value for the fourth argument of a higher-arity slot.\nIt is an instance of :Domain3Class") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (cardinality 0 1) ;+ (associated-facet SUMO152_00102) (create-accessor read-write)) (multislot part_2 ;+ (comment "\"The basic mereological relation. All other mereological relations are defined in terms of this one. (&%part ?PART ?WHOLE) simply means that the &%Object ?PART is part of the &%Object ?WHOLE. Note that, since &%part is a &%ReflexiveRelation, every &%Object is a part of itself.\"") (type INSTANCE) ;+ (allowed-classes Object) (create-accessor read-write)) (single-slot TeraFn_2 ;+ (comment "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000,000,000,000 units of the original &%UnitOfMeasure. For example, (&%TeraFn &%Hertz) is 1,000,000,000,000 &%Hertz.\"") (type INSTANCE) ;+ (allowed-classes UnitOfMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot %3AhasClassValue ;+ (comment "\"(:hasClassValue ?REL ?CLASS ?VAL) is used to specify that every instance ?INST of class ?CLASS will have the same instance ?VAL related to ?INST by the relation ?REL. This explicit assignment of a value can override a default assignment using the relation :hasDefaultValue. Note that attempting to assign a value to one class and a different value to a subclass will result in a logical contradiction. The parent class value must be set by :hasDefaultValue in order for hasClassValue to overide the default without contradiction.\"") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot needs_1 ;+ (comment "\"(&%needs ?AGENT ?OBJECT) means that ?OBJECT is physically required for the continued existence of ?AGENT.\"") (type INSTANCE) ;+ (allowed-classes Physical) ;+ (cardinality 0 1) ;+ (subslot-of inScopeOfInterest_2) (create-accessor read-write)) (multislot hasPurposeForAgent_1 ;+ (comment "\"Expresses a cognitive attitude of an agent with respect to a particular instance of Physical. More precisely, (&%hasPurposeForAgent ?THING ?FORMULA ?AGENT) means that the purpose of ?THING for ?AGENT is the proposition expressed by ?FORMULA. Very complex issues are involved here. In particular, the rules of inference of the first order predicate calculus are not truth-preserving for the second argument position of this &%Predicate.\"") (type INSTANCE) ;+ (allowed-classes CognitiveAgent) (create-accessor read-write)) (multislot subList_2 ;+ (comment "\"(&%subList ?LIST1 ?LIST2) means that ?LIST1 is a sublist of ?LIST2, i.e. every element of ?LIST1 is an element of ?LIST2 and the elements that are common to both &%Lists have the same order in both &%Lists.\"") (type INSTANCE) ;+ (allowed-classes List) (create-accessor read-write)) (multislot headOfGovernment_1 ;+ (comment "\"(&%headOfGovernment ?POLITY ?ROLE ?PERSON) means that ?PERSON is the top administrative leader of the &%Government of the &%GeopoliticalArea ?POLITY, with authority for managing its day-to-day functions. The office held by this person is the &%Position ?ROLE (e.g., President, Prime Minister, Governor). Note: this term is defined as in the CIA World Fact Book.\"") (type INSTANCE) ;+ (allowed-classes Human) (create-accessor read-write)) (multislot larger_4 ;+ (comment "\"(&%larger ?OBJ1 ?OBJ2) simply means that ?OBJ1 is larger, with respect to all &%LengthMeasures, than ?OBJ2.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (inverse-slot smaller_4) (create-accessor read-write)) (single-slot student_1 ;+ (comment "\"(&%student ?AGENT ?ORG) means that ?AGENT is enrolled in the &%EducationalOrganization ?ORG.\"") (type INSTANCE) ;+ (allowed-classes CognitiveAgent) ;+ (cardinality 0 1) ;+ (subslot-of member_2) (create-accessor read-write)) (single-slot %3AsynonymousTerm ;+ (comment "A string serving as a synonym for the class label.\n The value of the relation :synonymousTerm is a string of characters used as a label for the concept which is represented by the class which has that :Synonym pointed to by the :hasSynonym slot.\n Technically, :synonymousTerm is a slot of the class :Synonym. Instances of the class :Syonym are the values of the relation :SYNONYMS, which is an own slot of the class :SYN-CLASS.\n") (type STRING) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot hasAbstractContent_1 ;+ (comment "\"hasAbstractContent relates a pyscal object with information content to the abstract **representation** of that information, e.g. the abstract representation of the word 'cat' in a book would be the abstract string c-a-t. The actual Entity represented, a cat (or class of cats) is represented by the 'containsInformation' relation, which relates objects representing propositions (e.g. physical sentences in a boo) to the actual propositional content. See also 'representsAbstractly'.\"") (type INSTANCE) ;+ (allowed-classes AbstractInformationalEntity) ;+ (inverse-slot isAbstractContentOf_1) (create-accessor read-write)) (single-slot engineeringSubcomponent_1 ;+ (comment "\"(&%engineeringSubcomponent ?SUB ?SUPER) means that the &%EngineeringComponent ?SUB is structurally a &%properPart ?SUPER. This relation is an &%AsymmetricRelation, since two &%EngineeringComponents cannot be subcomponents of each other.\"") (type INSTANCE) ;+ (allowed-classes EngineeringComponent) ;+ (cardinality 0 1) ;+ (subslot-of properPart_2) (create-accessor read-write)) (multislot address_1 ;+ (comment "\"(&%address ?AGENT ?ADDRESS) means that ?ADDRESS is an address or part of an address for the &%Agent ?AGENT. address relates an instance of a CognitiveAgent to the unique designation of a stationary artifact, location, or mail drop where that agent can be contacted. This address includes buildings, room numbers, streets, mail drop numbers, and post office boxes, but excludes telephone numbers and other addresses that are not stationary. This is not the most general type of address.\"") (type INSTANCE) ;+ (allowed-classes Address) (create-accessor read-write)) (multislot hasNecessaryRelationTo_1 ;+ (comment "\"This is the inverse of :relationAllExists. (hasNecessaryRelationTo ?CLASS1 ?REL ?CLASS2) means that every instance of ?CLASS1 is related to some instance of ?CLASS2 by the ?REL relation.\"") (type SYMBOL) ;+ (allowed-parents Entity) (create-accessor read-write)) (single-slot MinuteFn_2 ;+ (comment "\"A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Hours to the &%Minutes within each &%Hour corresponding to that &%PositiveRealNumber. For example, (&%MinuteFn 30 (&%HourFn 17 &%Day)) is the &%Class of all 5:30's in the afternoon. For another example, (&%MinuteFn 15 &%Hour) would return the class of all instances of quarter past the hour. For still another example, (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn 8 (YearFn 1912))))) denotes 15 minutes after 2 PM on the 18th day of August 1912.\"") (type SYMBOL) ;+ (allowed-parents Minute) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot represents ;+ (comment "\"A very general semiotics &%Predicate. (&%represents ?THING ?ENTITY) means that ?THING in some way indicates, expresses, connotes, pictures, describes, etc. ?ENTITY. The &%Predicates &%containsInformation and &%realization are subrelations of &%represents. Note that &%represents is a subrelation of &%refers, since something can represent something else only if it refers to this other thing. See the documentation string for &%names.\"") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (cardinality 0 1) ;+ (subslot-of refers_1) (create-accessor read-write)) (multislot links_1 ;+ (comment "\"a &%TernaryPredicate that specifies the &%GraphArc connecting two &%GraphNodes.\"") (type INSTANCE) ;+ (allowed-classes GraphArc) (create-accessor read-write)) (single-slot uniqueIdentifier_2 ;+ (comment "\"The class of &%names that uniquely identify an instance of &%Entity. Some examples of &%uniqueIdentifiers are the keys of tables in database applications and the ISBN (International Standard Book Number).\"") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (cardinality 0 1) ;+ (subslot-of names) (create-accessor read-write)) (single-slot daughter_1 ;+ (comment "\"The general relationship of daughterhood. (&%daughter ?CHILD ?PARENT) means that ?CHILD is the biological daughter of ?PARENT.\"") (type INSTANCE) ;+ (allowed-classes Human) ;+ (cardinality 0 1) ;+ (subslot-of parent_3) (create-accessor read-write)) (multislot distributes_2 ;+ (comment "\"A &%BinaryFunction ?FUNCTION1 is distributive over another &%BinaryFunction ?FUNCTION2 just in case (?FUNCTION1 ?INST1 (?FUNCTION2 ?INST2 ?INST3)) is equal to (?FUNCTION2 (?FUNCTION1 ?INST1 ?INST2) (?FUNCTION1 ?INST1 ?INST3)), for all ?INST1, ?INST2, and ?INST3.\"") (type INSTANCE) ;+ (allowed-classes BinaryFunction) (create-accessor read-write)) (single-slot meetsSpatially_2 ;+ (comment "\"(&%meetsSpatially ?OBJ1 ?OBJ2) means that ?OBJ1 and ?OBJ2 are &%connected but that neither ?OBJ1 nor ?OBJ2 &%overlapsSpatially the other.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of connected_4) (create-accessor read-write)) (multislot subsumesContentInstance_2 ;+ (comment "\"A &%BinaryPredicate relating two instances of &%ContentBearingObject. (&%subsumesContentInstance ?OBJ1 ?OBJ2) means that the content expressed by ?OBJ2 is part of the content expressed by ?OBJ1. An example is the relationship between a handwritten poem and one of its stanzas. Note that this is a relation between instances, rather than &%Classes. If one wants to assert a content relationship between &%Classes, e.g. between the version of an intellectual work and a part of that work, the relation &%subsumesContentClass should be used.\"") (type INSTANCE) ;+ (allowed-classes ContentBearingObject) (create-accessor read-write)) (multislot wife_2 ;+ (comment "\"(&%wife ?WOMAN ?MAN) means that ?WOMAN is the wife of ?MAN.\"") (type INSTANCE) ;+ (allowed-classes Man) ;+ (inverse-slot husband_2) ;+ (subslot-of spouse_2) (create-accessor read-write)) (single-slot BeginFn_3 ;+ (comment "\"A &%UnaryFunction that maps a &%TimeInterval to the &%TimePoint at which the interval begins.\"") (type INSTANCE) ;+ (allowed-classes TimePoint) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot subProposition_3 ;+ (comment "\"(&%subProposition ?PROP1 ?PROP2) means that ?PROP1 is a &%Proposition which is a proper part of the &%Proposition ?PROP2. In other words, &%subProposition is the analogue of &%properPart for chunks of abstract content.\"") (type INSTANCE) ;+ (allowed-classes Proposition) (create-accessor read-write)) (multislot electionWinner_1 ;+ (comment "\"(&%electionWinner ?ELECTION ?POSITION ?CONTENDER) means that in the &%Election ?ELECTION, ?POSITION was won by the &%Agent ?CONTENDER. Contenders may be either persons or political parties.\"") (type INSTANCE) ;+ (allowed-classes Agent) ;+ (subslot-of candidateForPosition_1) (create-accessor read-write)) (single-slot MilliFn_2 ;+ (comment "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .001 units of the original &%UnitOfMeasure. For example, (&%MilliFn &%Ampere) is .001 &%Amperes.\"") (type INSTANCE) ;+ (allowed-classes UnitOfMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot price_1 ;+ (comment "\"(&%price ?Obj ?Money ?Agent) means that ?Agent pays the amount of money ?Money for ?Obj.\"") (type INSTANCE) ;+ (allowed-classes Agent) (create-accessor read-write)) (multislot pointOfIntersection_1 ;+ (comment "\"(&%pointOfIntersection ?FIGURE1 ?FIGURE2 ?POINT) means that the two straight lines ?FIGURE1 and ?FIGURE2 meet at the point ?POINT.\"") (type INSTANCE) ;+ (allowed-classes GeometricPoint) (create-accessor read-write)) (single-slot FirstFn_1 ;+ (comment "\"(&%FirstFn ?LIST) returns the first item in the &%List ?LIST. For example, (&%FirstFn (&%ListFn &%Monday &%Tuesday &%Wednesday)) would return the value of &%Monday.\"") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot cooccur_3 ;+ (comment "\"(&%cooccur ?THING1 ?THING2) means that the &%Object or &%Process ?THING1 occurs at the same time as, together with, or jointly with the &%Object or &%Process ?THING2. This covers the following temporal relations: is co-incident with, is concurrent with, is contemporaneous with, and is concomitant with.\"") (type INSTANCE) ;+ (allowed-classes Physical) ;+ (inverse-slot cooccur_3) (create-accessor read-write)) (multislot checkAccount_1 ;+ (comment "\"(&%checkAccount ?Check ?Account) means that ?Account is the &%FinancialAccount from which the amount specifed on the check is paid.\"") (type INSTANCE) ;+ (allowed-classes FinancialAccount) (create-accessor read-write)) (single-slot SecondFn_2 ;+ (comment "\"A &%BinaryFunction that assigns a &%PositiveRealNumber and a subclass of &%Minutes to the &%Seconds within each &%Minute corresponding to that &%PositiveRealNumber. For example, (&%SecondFn 4 (&%MinuteFn 5 &%Hour)) is the &%Class of all fourth &%Seconds of every fifth &%Minute of every hour. For another example, (&%SecondFn 8 &%Minute) would return the eighth second of every minute. For still another example, (&%SecondFn 9 (&%MinuteFn 15 (&%HourFn 14 (&%DayFn 18 (&%MonthFn 8 (YearFn 1912)))))) denotes 9 seconds and 15 minutes after 2 PM on the 18th day of August 1912.\"") (type SYMBOL) ;+ (allowed-parents Second) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot %3AAXIOMS ;+ (comment "Axioms from SUMO or other sources, constraining the meaning of the slot.") (type STRING) ;+ (cardinality 0 1) ;+ (associated-facet UBLinv014_00277) (create-accessor read-write)) (multislot geopoliticalSubdivision_2 ;+ (comment "\"(&%geopoliticalSubdivision ?AREA1 ?AREA2) means that ?AREA1 is any geopolitical part of ?AREA2; that is, ?AREA1 is an integral &%geographicSubregion of ?AREA2 (not a &%DependencyOrSpecialSovereigntyArea), having its own associated &%GovernmentOrganization which is subordinated to or constrained by the government of ?AREA2. Cf. &%dependentGeopoliticalArea.\"") (type INSTANCE) ;+ (allowed-classes GeopoliticalArea) ;+ (subslot-of geographicSubregion_3) (create-accessor read-write)) (single-slot PowerSetFn_2 ;+ (comment "\"(&%PowerSetFn ?CLASS) maps the &%SetOrClass ?CLASS to the &%SetOrClass of all &%subclasses of ?CLASS.\"") (type SYMBOL) ;+ (allowed-parents SetOrClass) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot knows_1 ;+ (comment "\"The epistemic predicate of knowing. (&%knows ?AGENT ?FORMULA) means that ?AGENT knows the proposition expressed by ?FORMULA. Note that &%knows entails conscious awareness, so this &%Predicate cannot be used to express tacit or subconscious or unconscious knowledge.\"") (type INSTANCE) ;+ (allowed-classes Formula) ;+ (subslot-of inScopeOfInterest_2) (create-accessor read-write)) (multislot element_3 ;+ (comment "\"(element ?ENTITY ?SET) is true just in case ?ENTITY is contained in the &%Set ?SET. An &%Entity can be an &%element of another &%Entity only if the latter is a &%Set.\"") (type INSTANCE) ;+ (allowed-classes Set) ;+ (subslot-of instance_1) (create-accessor read-write)) (single-slot MicroFn_2 ;+ (comment "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000001 units of the original &%UnitOfMeasure. For example, (&%MicroFn &%Meter) is .000001 &%Meters.\"") (type INSTANCE) ;+ (allowed-classes UnitOfMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot brother_2 ;+ (comment "\"The general relationship of being a brother. (&%brother ?MAN ?PERSON) means that ?MAN is the brother of ?PERSON.\"") (type INSTANCE) ;+ (allowed-classes Human) ;+ (subslot-of sibling_3) (create-accessor read-write)) (single-slot TimeIntervalFn_2 ;+ (comment "\"A &%BinaryFunction that takes two &%TimePoints as arguments and returns the &%TimeInterval defined by these two &%TimePoints. Note that the first &%TimePoint must occur earlier than the second &%TimePoint.\"") (type INSTANCE) ;+ (allowed-classes TimeInterval) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot realization_1 ;+ (comment "\"A subrelation of &%represents. (&%realization ?PROCESS ?PROP) means that ?PROCESS is a Process which expresses the content of ?PROP. Examples include a particular musical performance, which realizes the content of a musical score, or the reading of a poem.\"") (type INSTANCE) ;+ (allowed-classes Proposition) ;+ (subslot-of represents) (create-accessor read-write)) (multislot spouse_2 ;+ (comment "\"The relationship of marriage between two &%Humans.\"") (type INSTANCE) ;+ (allowed-classes Human) ;+ (inverse-slot spouse_2) ;+ (subslot-of legalRelation_2) (create-accessor read-write)) (single-slot most ;+ (comment "\"(&%most ?MOST ?WHOLE) means that ?MOST is a &%part of ?WHOLE that is greater than &%half of ?WHOLE.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of part_2) (create-accessor read-write)) (multislot modalAttribute_3 ;+ (comment "\"A &%BinaryRelation that is used to state the normative force of a &%Proposition. (&%modalAttribute ?FORMULA ?PROP) means that the &%Proposition expressed by ?FORMULA has the &%NormativeAttribute ?PROP. For example, (&%modalAttribute (&%exists (?ACT ?OBJ) (&%and (&%instance ?ACT &%Giving) (&%agent ?ACT John) (&%patient ?ACT ?OBJ) (&%destination ?ACT Tom))) &%Obligatory) means that John is obligated to give Tom something.\"") (type INSTANCE) ;+ (allowed-classes NormativeAttribute) ;+ (subslot-of property_1) (create-accessor read-write)) (multislot subrelation_2 ;+ (comment "\"(&%subrelation ?REL1 ?REL2) means that every tuple of ?REL1 is also a tuple of ?REL2. In other words, if the &%Relation ?REL1 holds for some arguments arg_1, arg_2, ... arg_n, then the &%Relation ?REL2 holds for the same arguments. A consequence of this is that a &%Relation and its subrelations must have the same &%valence. In CycL, &%subrelation is called #$genlPreds.\"") (type INSTANCE) ;+ (allowed-classes Relation) (create-accessor read-write)) (multislot connectedEngineeringComponents_2 ;+ (comment "\"This is the most general connection relation between &%EngineeringComponents. If (&%connectedEngineeringComponents ?COMP1 ?COMP2), then neither ?COMP1 nor ?COMP2 can be an &%engineeringSubcomponent of the other. The relation &%connectedEngineeringComponents is a &%SymmetricRelation; there is no information in the direction of connection between two components. It is also an &%IrreflexiveRelation; no &%EngineeringComponent bears this relation to itself. Note that this relation does not associate a name or type with the connection.\"") (type INSTANCE) ;+ (allowed-classes EngineeringComponent) ;+ (inverse-slot connectedEngineeringComponents_2) ;+ (subslot-of connected_4) (create-accessor read-write)) (multislot subOrganization_2 ;+ (comment "\"(&%subOrganization ?ORG1 ?ORG2) means that ?ORG1 is an &%Organization which is a proper part of the &%Organization ?ORG2.\"") (type INSTANCE) ;+ (allowed-classes Organization) ;+ (subslot-of subCollection_2) (create-accessor read-write)) (single-slot RemainderFn_3 ;+ (comment "\"(RemainderFn ?NUMBER ?DIVISOR) is the remainder of the number ?NUMBER divided by the number ?DIVISOR. The result has the same sign as ?DIVISOR.\"") (type INSTANCE) ;+ (allowed-classes Quantity) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot ExponentiationFn_3 ;+ (comment "\"(&%ExponentiationFn ?NUMBER ?INT) returns the &%RealNumber ?NUMBER raised to the power of the &%Integer ?INT.\"") (type INSTANCE) ;+ (allowed-classes Quantity) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot expressedInLanguage_2 ;+ (comment "\"(&%expressedInLanguage ?EXPRESS ?LANG) means that ?EXPRESS is expressed in &%Language ?LANG.\"") (type INSTANCE) ;+ (allowed-classes Language) (create-accessor read-write)) (multislot holdsObligation_2 ;+ (comment "\"Expresses a relationship between a &%Formula and a &%CognitiveAgent whereby the &%CognitiveAgent has the obligation to bring it about that the &%Formula is true.\"") (type INSTANCE) ;+ (allowed-classes CognitiveAgent) (create-accessor read-write)) (single-slot SquareRootFn_1 ;+ (comment "\"(SquareRootFn ?NUMBER) is the principal square root of ?NUMBER.\"") (type INSTANCE) ;+ (allowed-classes Number) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot disjointRelation ;+ (comment "\"This predicate relates any number of &%Relations. (&%disjointRelation @ROW) means that any two relations in @ROW have no tuples in common. As a consequence, the intersection of all of the relations in @ROW is the null set.\"") (type INSTANCE) ;+ (allowed-classes %3AUBL-SLOT) ;+ (associated-facet SKIFcore4_00381) (create-accessor read-write)) (multislot subGraph_3 ;+ (comment "\"The relation between two &%Graphs when one &%Graph is a part of the other. (&%subGraph ?GRAPH1 ?GRAPH2) means that ?GRAPH1 is a part of ?GRAPH2.\"") (type INSTANCE) ;+ (allowed-classes Graph) (create-accessor read-write)) (single-slot TemporalCompositionFn_2 ;+ (comment "\"The basic &%Function for expressing the composition of larger &%TimeIntervals out of smaller &%TimeIntervals. For example, if &%ThisSeptember is an &%instance of &%September, (&%TemporalCompositionFn &%ThisSeptember &%Day) denotes the &%Class of consecutive days that make up &%ThisSeptember. Note that one can obtain the number of instances of this &%Class by using the function &%CardinalityFn.\"") (type SYMBOL) ;+ (allowed-parents TimeInterval) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot husband_2 ;+ (comment "\"(&%husband ?MAN ?WOMAN) means that ?MAN is the husband of ?WOMAN.\"") (type INSTANCE) ;+ (allowed-classes Woman) ;+ (inverse-slot wife_2) ;+ (subslot-of spouse_2) (create-accessor read-write)) (single-slot RealNumberFn_1 ;+ (comment "\"(RealNumberFn ?NUMBER) returns the part of ?NUMBER that is a &%RealNumber.\"") (type INSTANCE) ;+ (allowed-classes RealNumber) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot patient_1 ;+ (comment "\"(&%patient ?PROCESS ?ENTITY) means that ?ENTITY is a participant in ?PROCESS that may be moved, said, experienced, etc. For example, the direct objects in the sentences 'The cat swallowed the canary' and 'Billy likes the beer' would be examples of &%patients. Note that the &%patient of a &%Process may or may not undergo structural change as a result of the &%Process. The &%CaseRole of &%patient is used when one wants to specify as broadly as possible the object of a &%Process.\"") (type INSTANCE) ;+ (allowed-classes Entity) (create-accessor read-write)) (multislot fiscalYearPeriod_1 ;+ (comment "\"The predicate &%fiscalYearPeriod indicates the period that an &%Agent or &%Organization uses as its 12-month accounting period. (&%fiscalYearPeriod ?AGENT &%Year) means that ?AGENT observes its 12-month accounting period during the regular calendar year (CY), from &%January to &%December. For fiscal years with other beginning and ending months (FYs), use (&%fiscalYearPeriod ?AGENT (&%RecurrentTimeIntervalFn ?STARTMONTH ?ENDMONTH)). For example, (&%fiscalYearPeriod (&%GovernmentFn &%UnitedStates) (&%RecurrentTimeIntervalFn &%October &%September)). For FYs that begin or end mid-month, days may be specified within &%RecurrentTimeIntervalFn.\"") (type SYMBOL) ;+ (allowed-parents TimeInterval) (create-accessor read-write)) (single-slot EditionFn_2 ;+ (comment "\"A &%BinaryFunction that maps a type of text (e.g. Agatha Christie's Murder_on_the_Orient_Express) and a number to the edition of the text type corresponding to the number.\"") (type SYMBOL) ;+ (allowed-parents ContentBearingObject) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot identityElement_2 ;+ (comment "\"An object ?ID is the identity element for BinaryFunction ?FUNCTION just in case, for every instance ?INST, applying ?FUNCTION to ?INST and ?ID results in ?INST.\"") (type INSTANCE) ;+ (allowed-classes Entity) (create-accessor read-write)) (single-slot son_1 ;+ (comment "\"The general relationship of being a son. (&%son ?CHILD ?PARENT) means that ?CHILD is the biological son of ?PARENT.\"") (type INSTANCE) ;+ (allowed-classes Human) ;+ (cardinality 0 1) ;+ (subslot-of parent_3) (create-accessor read-write)) (multislot geometricPart_2 ;+ (comment "\"(&%geometricPart ?PART ?WHOLE) means that the &%GeometricFigure ?PART is part of the &%GeometricFigure ?WHOLE.\"") (type INSTANCE) ;+ (allowed-classes GeometricFigure) (create-accessor read-write)) (single-slot mother_2 ;+ (comment "\"The general relationship of motherhood. (&%mother ?CHILD ?MOTHER) means that ?MOTHER is the biological mother of ?CHILD.\"") (type INSTANCE) ;+ (allowed-classes Organism) ;+ (cardinality 0 1) ;+ (subslot-of parent_3) (create-accessor read-write)) (single-slot LastFn_1 ;+ (comment "\"(&%LastFn ?LIST) returns the last item in the &%List ?LIST. For example, (&%LastFn (&%ListFn &%Monday &%Tuesday &%Wednesday)) would return the value of &%Wednesday.\"") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot %3AhasRestrictedVal ;+ (comment ":hasRestrictedVal is the companion slot to :isRestrictedTo, with args 1 and 2 reversed, so that it is displayed in the class window for arg2.") (type SYMBOL) ;+ (allowed-parents Entity) (create-accessor read-write)) (multislot %3AisInModule ;+ (comment ":IsInModule is a slot that attaches to both :UBL-SLOT and :UBL-CLASS.\nIt is used to organize the concepts in related groupings. Initially, the modules specified will be those of the SUMO ontology.\n we allow a concpet to be inmore than one module, but in order to reproduce the structure of a particular KIF file, only one module should be specified.") (type INSTANCE) ;+ (allowed-classes %3AModule) ;+ (associated-facet UBLinv018t_00322) (create-accessor read-write)) (single-slot depth_1 ;+ (comment "\"A &%TernaryPredicate that is used to state the &%distance between the &%top of an &%Object and another point that is above the &%top of the &%Object (often this other point will be sea level). Note that this &%Predicate can be used to specify, for example, the depth of marine life or submarines, for example.\"") (type INSTANCE) ;+ (allowed-classes LengthMeasure) ;+ (cardinality 0 1) ;+ (subslot-of distance_3) (create-accessor read-write)) (single-slot MinimalCutSetFn_1 ;+ (comment "\"A &%UnaryFunction that assigns a &%Graph the &%Class of &%GraphPaths which comprise cutsets for the &%Graph and which have the least number of &%GraphArcs.\"") (type SYMBOL) ;+ (allowed-parents GraphPath) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot couponInterest_1 ;+ (comment "\"(&%couponInterest ?BOND ?INTEREST) means that ?INTEREST is the periodic interest payment made to bondholders during the life of the ?BOND.\"") (type INSTANCE) ;+ (allowed-classes CurrencyMeasure) (create-accessor read-write)) (multislot prevents_2 ;+ (comment "\"A very general &%Predicate. (&%prevents ?PROC1 ?PROC2) means that ?PROC1 prevents the occurrence of ?PROC2. In other words, if ?PROC1 is occurring in a particular time and place, ?PROC2 cannot occur at the same time and place. For example, innoculating prevents contracting disease. Note that this is a relation between types of &%Processes, not between instances.\"") (type SYMBOL) ;+ (allowed-parents Process) (create-accessor read-write)) (single-slot ProbabilityFn_4 ;+ (comment "\"One of the basic &%ProbabilityRelations, &%ProbabilityFn is used to state the a priori probability of a state of affairs. (&%ProbabilityFn ?FORMULA) denotes the a priori probability of ?FORMULA.\"") (type INSTANCE) ;+ (allowed-classes RealNumber) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot finishes_4 ;+ (comment "\"(&%finishes ?INTERVAL1 ?INTERVAL2) means that ?INTERVAL1 and ?INTERVAL2 are both &%TimeIntervals that have the same ending &%TimePoint and that ?INTERVAL2 begins before ?INTERVAL1.\"") (type INSTANCE) ;+ (allowed-classes TimeInterval) (create-accessor read-write)) (multislot domain_1 ;+ (comment "\"Provides a computationally and heuristically convenient mechanism for declaring the argument types of a given relation. The formula (&%domain ?REL ?INT ?CLASS) means that the ?INT'th element of each tuple in the relation ?REL must be an instance of ?CLASS. Specifying argument types is very helpful in maintaining ontologies. Representation systems can use these specifications to classify terms and check integrity constraints. If the restriction on the argument type of a &%Relation is not captured by a &%SetOrClass already defined in the ontology, one can specify a &%SetOrClass compositionally with the functions &%UnionFn, &%IntersectionFn, etc.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) (create-accessor read-write)) (single-slot electronNumber_3 ;+ (comment "\"(&%electronNumber ?SUBSTANCE ?NUMBER) means that the &%PureSubstance ?SUBSTANCE has the number of &%Electrons ?NUMBER.\"") (type INSTANCE) ;+ (allowed-classes PositiveInteger) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot decreasesLikelihood_3 ;+ (comment "\"One of the basic &%ProbabilityRelations. (&%decreasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is less likely to be true if ?FORMULA1 is true.\"") (type INSTANCE) ;+ (allowed-classes Formula) (create-accessor read-write)) (multislot measure_2 ;+ (comment "\"A very general &%Predicate for asserting that a particular &%Object is measured by a particular &%ConstantQuantity. In general, the second argument of this &%Predicate will be an instance of the &%Function &%MeasureFn.\"") (type INSTANCE) ;+ (allowed-classes PhysicalQuantity) (create-accessor read-write)) (multislot %3AuncInstList ;+ (comment "The insatance(s) created from an instance block, saved for convenience in later procesing of unclassified instance propositions.") (type INSTANCE) ;+ (allowed-classes Entity) (create-accessor read-write)) (multislot refers_1 ;+ (comment "\"(&%refers ?OBJ1 ?OBJ2) means that ?OBJ1 mentions or includes a reference to ?OBJ2. Note that &%refers is more general in meaning than &%represents, because presumably something can represent something else only if it refers to this other thing. For example, an article whose topic is a recent change in the price of oil may refer to many other things, e.g. the general state of the economy, the weather in California, the prospect of global warming, the options for alternative energy sources, the stock prices of various oil companies, etc.\"") (type INSTANCE) ;+ (allowed-classes Entity) (create-accessor read-write)) (single-slot names ;+ (comment "\"(&%names ?STRING ?ENTITY) means that the thing ?ENTITY has the &%SymbolicString ?STRING as its name. Note that &%names and &%represents are the two immediate &%subrelations of &%refers. The predicate &%names is used when the referring item is merely a tag without connotative content, while the predicate &%represents is used for referring items that have such content.\"") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (cardinality 0 1) ;+ (inverse-slot hasName_1) ;+ (subslot-of refers_1) (create-accessor read-write)) (single-slot angleOfFigure ;+ (comment "\"(&%angleOfFigure ?ANGLE ?FIGURE) means that the &%TwoDimensionalAngle ?ANGLE is part of the &%GeometricFigure ?FIGURE.\"") (type INSTANCE) ;+ (allowed-classes GeometricFigure) ;+ (cardinality 0 1) ;+ (subslot-of geometricPart_2) (create-accessor read-write)) (single-slot hopes_2 ;+ (comment "\"(&%hopes ?AGENT ?FORMULA) means that ?AGENT hopes that the proposition ?FORMULA will be true, i.e. he/she believes that it will come to pass in the future and that it will be desirable for ?AGENT.\"") (type INSTANCE) ;+ (allowed-classes Formula) ;+ (cardinality 0 1) ;+ (subslot-of expects_2) (create-accessor read-write)) (multislot property_1 ;+ (comment "\"This &%Predicate holds between an instance of &%Entity and an instance of &%Attribute. (property ?ENTITY ?ATTR) means that ?ENTITY has the &%Attribute ?ATTR.\"") (type INSTANCE) ;+ (allowed-classes Attribute) (create-accessor read-write)) (single-slot home ;+ (comment "\"The relation between a &%Human and a home of the &%Human.\"") (type INSTANCE) ;+ (allowed-classes StationaryArtifact) ;+ (cardinality 0 1) ;+ (subslot-of inhabits_2) (create-accessor read-write)) (multislot doubts_1 ;+ (comment "\"(&%doubts ?AGENT ?FORMULA) means that ?AGENT is unsure about the truth of ?FORMULA, in particular ?AGENT does not believe that ?FORMULA is true.\"") (type INSTANCE) ;+ (allowed-classes Formula) (create-accessor read-write)) (single-slot ListFn_3 ;+ (comment "\"A &%Function that takes any number of arguments and returns the &%List containing those arguments in exactly the same order.\"") (type INSTANCE) ;+ (allowed-classes %3ARow) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot pointOfFigure ;+ (comment "\"(&%pointOfFigure ?POINT ?FIGURE) means that the &%GeometricPoint ?POINT is part of the &%GeometricFigure ?FIGURE.\"") (type INSTANCE) ;+ (allowed-classes GeometricFigure) ;+ (cardinality 0 1) ;+ (subslot-of geometricPart_2) (create-accessor read-write)) (single-slot MaxFn_5 ;+ (comment "\"(&%MaxFn ?NUMBER1 ?NUMBER2) is the largest of ?NUMBER1 and ?NUMBER2. In cases where ?NUMBER1 is equal to ?NUMBER2, &%MaxFn returns one of its arguments.\"") (type INSTANCE) ;+ (allowed-classes Quantity) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot superficialPart_2 ;+ (comment "\"(&%superficialPart ?OBJ1 ?OBJ2) means that ?OBJ1 is a part of ?OBJ2 that has no interior parts of its own (or, intuitively, that only overlaps those parts of ?OBJ2 that are externally connected with the mereological complement of ?OBJ2). This too is a transitive relation closed under &%MereologicalSumFn and &%MereologicalProductFn.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of part_2) (create-accessor read-write)) (multislot hasAbstractName_1 ;+ (comment "\"hasAbstractName relates an instance of an entity to an abstract string of linguistic characters used to reference the entity in linguistic communication. This is closely related to hasName, the value of which is a SymbolicString (a physical object). The hasAbstractName relation is not a necessary relation since not every entity is named by a AbstractString and not every AbstractString is the label for an entity.\"") (type INSTANCE) ;+ (allowed-classes AbstractString) ;+ (inverse-slot isaNameOf_2) (create-accessor read-write)) (multislot successorAttribute_2 ;+ (comment "\"(&%successorAttribute ?ATTR1 ?ATTR2) means that ?ATTR2 is the &%Attribute that comes immediately after ?ATTR1 on the scale that they share.\"") (type INSTANCE) ;+ (allowed-classes Attribute) (create-accessor read-write)) (multislot customer_3 ;+ (comment "\"A very general relation that exists whenever there is a &%CommercialService between an &%Agent and an &%Organization. (&%customer ?AGENT ?ORG) means that ?AGENT is a customer of the &%Corporation ?ORG.\"") (type INSTANCE) ;+ (allowed-classes Corporation) (create-accessor read-write)) (multislot hasExpertise_1 ;+ (comment "\"(&%hasExpertise ?PERSON ?FIELD) means that ?PERSON has studied the &%FieldOfStudy ?FIELD and is regarded as an expert.\"") (type INSTANCE) ;+ (allowed-classes FieldOfStudy) (create-accessor read-write)) (multislot hasName_1 ;+ (comment "\"hasName relates an instance of an entity to a string of linguistic characters used to reference the entity in linguistic communication. This is the inverse of the SUMO relation 'names', added to allow more flexible representation in Protege. The hasName relation is not a necessary relation since not every entity is named by a SymbolicString and not every SymbolicString is the label for an entity.\"") (type INSTANCE) ;+ (allowed-classes SymbolicString) ;+ (inverse-slot names) (create-accessor read-write)) (single-slot SeriesVolumeFn_2 ;+ (comment "\"A &%BinaryFunction that maps a type of &%Series (e.g. the Encyclopedia_Britannica or the Popular_Mechanics periodical) and a number to the volumes of the text type designated by the number.\"") (type SYMBOL) ;+ (allowed-parents Text) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot penetrates_2 ;+ (comment "\"(penetrates ?OBJ1 ?OBJ2) means that ?OBJ1 is &%connected to ?OBJ2 along at least one whole dimension (length, width or depth).\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of traverses_2 meetsSpatially_2) (create-accessor read-write)) (multislot inScopeOfInterest_2 ;+ (comment "\"A very general &%Predicate. (&%inScopeOfInterest ?AGENT ?ENTITY) means that ?ENTITY is within the scope of interest of ?AGENT. Note that the interest indicated can be either positive or negative, i.e. the ?AGENT can have an interest in avoiding or promoting ?ENTITY.\"") (type INSTANCE) ;+ (allowed-classes Entity) (create-accessor read-write)) (single-slot %3AblockLineNumber ;+ (comment "The :blockLineNumber of a comment or unrecognized predicate is its location within the block where it occurs in a SKIF input file.") (type INTEGER) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot frequency_2 ;+ (comment "\"(frequency ?PROC ?TIME) means that the &%Process type of ?PROC recurs after every interval of ?TIME.\"") (type INSTANCE) ;+ (allowed-classes TimeDuration) (create-accessor read-write)) (multislot profit_1 ;+ (comment "\"The positive gain from an investment or business operation after subtracting for all expenses.\"") (type INSTANCE) ;+ (allowed-classes CurrencyMeasure) (create-accessor read-write)) (multislot subsumesContentClass_2 ;+ (comment "\"A &%BinaryPredicate that relates two subclasses of &%ContentBearingObject. (&%subsumesContentClass ?CLASS1 ?CLASS2) means that the content expressed by each instance of ?CLASS2 is also expressed by each instance of ?CLASS1. Examples include the relationship between a poem and one of its stanzas or between a book and one of its chapters. Note that this is a relation between subclasses of &%ContentBearingObject, rather than instances. If one wants to relate instances, the &%Predicate &%subsumesContentInstance can be used. Note that &%subsumesContentClass is needed in many cases. Consider, for example, the relation between the King James edition of the Bible and its Book of Genesis. This relation holds for every copy of this edition and not just for a single instance.\"") (type SYMBOL) ;+ (allowed-parents ContentBearingObject) (create-accessor read-write)) (single-slot IntervalFn_1 ;+ (comment "\"A &%BinaryFunction that maps two &%ConstantQuantities to the &%Class of &%ConstantQuantities that comprise the interval from the first &%ConstantQuantity to the second &%ConstantQuantity. For example, (&%IntervalFn (&%MeasureFn 8 &%Meter) (&%MeasureFn 14 &%Meter)) would return the &%Class of &%ConstantQuantities between 8 and 14 meters in length.\"") (type SYMBOL) ;+ (allowed-parents ConstantQuantity) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot editor_2 ;+ (comment "\"(&%editor ?AGENT ?TEXT) means that ?AGENT is an editor of ?TEXT.\"") (type SYMBOL) ;+ (allowed-parents Text) (create-accessor read-write)) (multislot %3C%3D%3E_2 ;+ (comment "\"The truth-functional connective of bi-implication.\"") (type INSTANCE) ;+ (allowed-classes Formula) (create-accessor read-write)) (multislot %3AargumentList ;+ (comment "The :argumentList is the list of top-level arguments (not breaking parenthesized arguments such as functions into their components)\n") (type STRING) (create-accessor read-write)) (single-slot RelativeComplementFn_2 ;+ (comment "\"A &%BinaryFunction that maps two &%SetOrClasses to the difference between these &%SetOrClasses. More precisely, (&%RelativeComplementFn ?CLASS1 ?CLASS2) denotes the instances of ?CLASS1 that are not also instances of ?CLASS2.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot occupiesPosition_1 ;+ (comment "\"(&%occupiesPosition ?PERSON ?POSITION ?ORG) means that ?PERSON holds the &%Position ?POSITION at &%Organization ?ORG. For example, (&%occupiesPosition &%TomSmith &%ResearchDirector &%AcmeLaboratory) means that &%TomSmith is a research director at Acme Labs.\"") (type INSTANCE) ;+ (allowed-classes Organization) (create-accessor read-write)) (multislot experiencer_1 ;+ (comment "\"(&%experiencer ?PROCESS ?AGENT) means that ?AGENT experiences the &%Process ?PROCESS. For example, Yojo is the &%experiencer of seeing in the following proposition: Yojo sees the fish. Note that &%experiencer, unlike &%agent, does not entail a causal relation between its arguments.\"") (type INSTANCE) ;+ (allowed-classes Agent) (create-accessor read-write)) (single-slot properPart_2 ;+ (comment "\"(&%properPart ?OBJ1 ?OBJ2) means that ?OBJ1 is a part of ?OBJ2 other than ?OBJ2 itself. This is a &%TransitiveRelation and &%AsymmetricRelation (hence an &%IrreflexiveRelation).\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of part_2) (create-accessor read-write)) (single-slot diameter_3 ;+ (comment "\"&%BinaryPredicate that is used to state the measure of a circular &%Object from side to side. (&%diameter ?CIRCLE ?LENGTH) means that the diameter of the &%Circle ?CIRCLE has a length of ?LENGTH.\"") (type INSTANCE) ;+ (allowed-classes LengthMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot inhabits_2 ;+ (comment "\"A very basic notion of living within something else. (&%inhabits ?ORGANISM ?OBJECT) means that ?OBJECT is the residence, nest, home, etc. of ?ORGANISM.\"") (type INSTANCE) ;+ (allowed-classes Object) (create-accessor read-write)) (multislot direction_1 ;+ (comment "\"(&%direction ?PROC ?ATTR) means that the &%Process ?PROC is moving in the direction ?ATTR. For example, one would use this &%Predicate to represent the fact that Max is moving &%North.\"") (type INSTANCE) ;+ (allowed-classes DirectionalAttribute) (create-accessor read-write)) (multislot closedOn_2 ;+ (comment "\"A &%BinaryFunction is closed on a &%SetOrClass if it is defined for all instances of the &%SetOrClass and its value is always an instance of the &%SetOrClass.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) (create-accessor read-write)) (single-slot %3AhasFrequency ;+ (comment "The frequency is the fraction of the time that this term refers to the labeled concept. The sum of frequencies onthis list may exceed 1.0, because this is not the freuency with which this concepot is labeled by this term, but the inverse.") (type FLOAT) (range 0.0 1.0) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot sideOfFigure ;+ (comment "\"(&%sideOfFigure ?SIDE ?FIGURE) means that the &%OneDimensionalFigure ?POINT is a side of the &%GeometricFigure ?FIGURE.\"") (type INSTANCE) ;+ (allowed-classes GeometricFigure) ;+ (cardinality 0 1) ;+ (subslot-of geometricPart_2) (create-accessor read-write)) (single-slot altitude_1 ;+ (comment "\"A &%TernaryPredicate that is used to state the &%distance between the &%top of an &%Object and another point that is below the &%top of the &%Object (often this other point will be sea level). Note that this &%Predicate can be used to specify, for example, the height of geographic features, e.g. mountains, the altitude of aircraft, and the orbit of satellites around the Earth.\"") (type INSTANCE) ;+ (allowed-classes LengthMeasure) ;+ (cardinality 0 1) ;+ (subslot-of distance_3) (create-accessor read-write)) (multislot subAttribute_2 ;+ (comment "\"Means that the second argument can be ascribed to everything which has the first argument ascribed to it.\"") (type INSTANCE) ;+ (allowed-classes Attribute) (create-accessor read-write)) (multislot %3AcommentLines ;+ (comment "The individual comment lines found in a SKIF inpout file.") (type STRING) (create-accessor read-write)) (multislot governmentType_1 ;+ (comment "\"(&%governmentType ?BODY ?FORM) means that the &%GeopoliticalArea or &%Organization ?BODY has a government with characteristic(s) of the type ?FORM.\"") (type INSTANCE) ;+ (allowed-classes FormOfGovernment) ;+ (subslot-of attribute_2) (create-accessor read-write)) (single-slot age_1 ;+ (comment "\"Simply relates an &%Object to a &%ConstantQuantity specifying the age of the &%Object.\"") (type INSTANCE) ;+ (allowed-classes TimeDuration) ;+ (cardinality 0 1) ;+ (subslot-of measure_2) (create-accessor read-write)) (multislot hasModalAttribute_3 ;+ (comment "\"This is a relation analogous to the SUMO &%modalObligation, but applying to abstract assertions rather than physical Formulas as in SUMO. A &%BinaryRelation that is used to state the normative force of a &%Proposition. (&%hasModalAttribute ?Assertion ?PROP) means that the &%Proposition expressed by ?Assertion has the &%NormativeAttribute ?PROP. For example, (&%hasModalAttribute (&%exists (?ACT ?OBJ) (&%and (&%instance ?ACT &%Giving) (&%agent ?ACT John) (&%patient ?ACT ?OBJ) (&%destination ?ACT Tom))) &%Obligatory) means that John is obligated to give Tom something.\"") (type INSTANCE) ;+ (allowed-classes NormativeAttribute) ;+ (inverse-slot isaModalAttributeOf_1) (create-accessor read-write)) (multislot candidateForPosition_1 ;+ (comment "\"(&%candidateForPosition ?ELECTION ?POSITION ?CONTENDER) means that in the &%Election ?ELECTION for ?POSITION, the &%Agent ?CONTENDER was one of the candidates.\"") (type INSTANCE) ;+ (allowed-classes Agent) (create-accessor read-write)) (single-slot radius_3 ;+ (comment "\"(&%radius ?CIRCLE ?LENGTH) means that the radius of the &%Circle ?CIRCLE has a length of ?LENGTH.\"") (type INSTANCE) ;+ (allowed-classes LengthMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot postalCode_2 ;+ (comment "\"(&%postalCode ?NUMBER ?ADDRESS) means that the the postal code, e.g. zip code, ?NUMBER is part of the address ?ADDRESS.\"") (type INSTANCE) ;+ (allowed-classes Address) ;+ (cardinality 0 1) ;+ (subslot-of uniqueIdentifier_2) (create-accessor read-write)) (single-slot not_2 ;+ (comment "\"The truth-functional connective of negation. This relation definition was modified by P. Cassidy November 2003 to specify that 'not' is an instance of UnaryRelation\"") (type STRING) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot streetAddress ;+ (comment "\"(&%streetAddress ?STREET ?ADDRESS) means that the &%Roadway ?STREET is part of the address ?ADDRESS.\"") (type INSTANCE) ;+ (allowed-classes Address) ;+ (cardinality 0 1) ;+ (subslot-of address_1) (create-accessor read-write)) (multislot hasAssociatedSituation_1 ;+ (comment "\"(hasAssociatedSituation ?Sit1 ?Sit2) asserts that ?Sit1 has ?Sit2 associated with it, either necessarily or pragmatically (i.e. probabilistically, e.g. one situation usually is followed by or simultaneously occurs with ?Sit2, whether causally or otherwise). Such associations are important to Agent in determining whether one action may be beneficial or harmful.\"") (type INSTANCE) ;+ (allowed-classes Situation) (create-accessor read-write)) (single-slot instrument ;+ (comment "\"(instrument ?EVENT ?TOOL) means that ?TOOL is used by an agent in bringing about ?EVENT and that ?TOOL is not changed by ?EVENT. For example, the key is an &%instrument in the following proposition: The key opened the door. Note that &%instrument and &%resource cannot be satisfied by the same ordered pair.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of patient_1) (create-accessor read-write)) (multislot believes_1 ;+ (comment "\"The epistemic predicate of belief. (&%believes ?AGENT ?FORMULA) means that ?AGENT believes the proposition expressed by ?FORMULA.\"") (type INSTANCE) ;+ (allowed-classes Formula) ;+ (subslot-of inScopeOfInterest_2) (create-accessor read-write)) (multislot ancestor_2 ;+ (comment "\"The transitive closure of the &%parent predicate. (&%ancestor ?DESCENDANT ?ANCESTOR) means that ?ANCESTOR is either the &%parent of ?DESCENDANT or the &%parent of the &%parent of &%DESCENDANT or etc.\"") (type INSTANCE) ;+ (allowed-classes Organism) ;+ (subslot-of familyRelation_2) (create-accessor read-write)) (single-slot AbsoluteValueFn_2 ;+ (comment "\"The value of (&%AbsoluteValueFn ?NUMBER) is the absolute value of the &%RealNumber ?NUMBER.\"") (type INSTANCE) ;+ (allowed-classes NonnegativeRealNumber) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot partition3 ;+ (comment "A &%partition of a class C is a set of mutually &%disjoint classes (a subclass partition) which covers C. Every instance of C is an instance of exactly one of the subclasses \nin the partition.") (type INSTANCE) ;+ (allowed-classes %3AUBL-CLASS %3ATHING) ;+ (subslot-of partition) (create-accessor read-write)) (single-slot GeneralizedIntersectionFn_2 ;+ (comment "\"A &%UnaryFunction that takes a &%SetOrClass of &%Classes as its single argument and returns a &%SetOrClass which is the intersection of all of the &%Classes in the original &%SetOrClass, i.e. the &%SetOrClass containing just those instances which are instances of all instances of the original &%SetOrClass.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot DensityFn_1 ;+ (comment "\"&%DensityFn maps an instance of &%MassMeasure and an instance of &%VolumeMeasure to the density represented by this proportion of mass and volume. For example, (&%DensityFn (&%MeasureFn 3 &%Gram) (&%MeasureFn 1 &%Liter)) represents the density of 3 grams per liter.\"") (type INSTANCE) ;+ (allowed-classes FunctionQuantity) ;+ (cardinality 0 1) ;+ (subslot-of PerFn_2) (create-accessor read-write)) (multislot maturityDate_1 ;+ (comment "\"The date on which the principal amount of the account becomes due and payable.\"") (type INSTANCE) ;+ (allowed-classes Day) (create-accessor read-write)) (multislot periodicPayment_1 ;+ (comment "\"(&%periodicPayment ?Account ?Amount ?Period) holds if ?Amount is the amount that must be made from the &%FinancialAccount ?Account after every period of duration ?Period.\"") (type INSTANCE) ;+ (allowed-classes TimeDuration) (create-accessor read-write)) (single-slot synonymousExternalConcept ;+ (comment "\"(&%synonymousExternalConcept ?STRING ?THING ?LANGUAGE) means that the SUMO concept ?THING has the same meaning as ?STRING in ?LANGUAGE.\"") (type INSTANCE) ;+ (allowed-classes %3ALanguage) ;+ (cardinality 0 1) ;+ (subslot-of relatedExternalConcept) (create-accessor read-write)) (single-slot top_1 ;+ (comment "\"(&%top ?TOP ?OBJECT) means that ?TOP is the highest maximal superficial part of ?OBJECT.\"") (type INSTANCE) ;+ (allowed-classes SelfConnectedObject) ;+ (cardinality 0 1) ;+ (subslot-of superficialPart_2) (create-accessor read-write)) (single-slot overlapsPartially_4 ;+ (comment "\"(&%overlapsPartially ?OBJ1 ?OBJ2) means that ?OBJ1 and ?OBJ2 have part(s) in common, but neither ?OBJ1 nor ?OBJ2 is a &%part of the other.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of overlapsSpatially_2) (create-accessor read-write)) (single-slot SuccessorFn_2 ;+ (comment "\"A &%UnaryFunction that maps an &%Integer to its successor, e.g. the successor of 5 is 6.\"") (type INSTANCE) ;+ (allowed-classes Integer) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot wears_1 ;+ (comment "\"(&%wears ?AGENT ?CLOTHING) means that ?AGENT is wearing the item of &%Clothing ?CLOTHING.\"") (type INSTANCE) ;+ (allowed-classes Clothing) (create-accessor read-write)) (multislot meetsTemporally_4 ;+ (comment "\"(&%meetsTemporally ?INTERVAL1 ?INTERVAL2) means that the terminal point of the &%TimeInterval ?INTERVAL1 is the initial point of the &%TimeInterval ?INTERVAL2.\"") (type INSTANCE) ;+ (allowed-classes TimeInterval) (create-accessor read-write)) (multislot authors_2 ;+ (comment "\"(&%authors ?AGENT ?TEXT) means that ?AGENT is creatively responsible for ?TEXT. For example, Agatha Christie is author of Murder_on_the_Orient_Express.\"") (type SYMBOL) ;+ (allowed-parents Text) (create-accessor read-write)) (single-slot BackFn_5 ;+ (comment "\"A &%Function that maps an &%Object to the side that is opposite the &%FrontFn of the &%Object. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"") (type INSTANCE) ;+ (allowed-classes SelfConnectedObject) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot issuedBy_1 ;+ (comment "\"(&%issuedBy ?Instrument ?Agent) means that a &%FinancialInstrument ?Instrument is produced and offered by ?Agent.\"") (type INSTANCE) ;+ (allowed-classes CognitiveAgent) (create-accessor read-write)) (multislot conjugate_4 ;+ (comment "\"(&%conjugate ?COMPOUND1 ?COMPOUND2) means that ?COMPOUND1 and ?COMPOUND2 are identical &%CompoundSubstances except that one has one more &%Proton than the other.\"") (type INSTANCE) ;+ (allowed-classes CompoundSubstance) ;+ (inverse-slot conjugate_4) (create-accessor read-write)) (single-slot LogFn_1 ;+ (comment "\"(LogFn ?NUMBER ?INT) returns the logarithm of the &%RealNumber ?NUMBER in the base denoted by the &%Integer ?INT.\"") (type INSTANCE) ;+ (allowed-classes RealNumber) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot contraryAttribute_2 ;+ (comment "\"A &%contraryAttribute is a set of &%Attributes such that something can not simultaneously have more than one of these &%Attributes. For example, (&%contraryAttribute &%Pliable &%Rigid) means that nothing can be both &%Pliable and &%Rigid.\"") (type INSTANCE) ;+ (allowed-classes %3ARow Attribute) (create-accessor read-write)) (single-slot fears_2 ;+ (comment "\"(&%fears ?AGENT ?FORMULA) means that ?AGENT fears that the proposition ?FORMULA will be true, i.e. he/she believes that it will come to pass in the future and that it will be undesirable for ?AGENT.\"") (type INSTANCE) ;+ (allowed-classes Formula) ;+ (cardinality 0 1) ;+ (subslot-of expects_2) (create-accessor read-write)) (multislot representsAbstractly_1 ;+ (comment "\"representsAbstractly is the relation between an AbstractSymbol and the entity it represents. The entity can be abstract or concrete.\"") (type INSTANCE) ;+ (allowed-classes Entity) (create-accessor read-write)) (multislot electionForPosition_1 ;+ (comment "\"(&%electionForPosition ?ELECTION ?POSITION) means that in the &%Election ?ELECTION, candidates run for election to the role(s) ?POSITION.\"") (type INSTANCE) ;+ (allowed-classes SocialRole) (create-accessor read-write)) (multislot exploits_2 ;+ (comment "\"(&%exploits ?OBJ ?AGENT) means that ?OBJ is used by ?AGENT as a &%resource in an unspecified instance of &%Process. This &%Predicate, as its corresponding axiom indicates, is a composition of the relations &%agent and &%resource.\"") (type INSTANCE) ;+ (allowed-classes Agent) (create-accessor read-write)) (multislot chiefOfState_1 ;+ (comment "\"(&%chiefOfState ?POLITY ?ROLE ?PERSON) means that ?PERSON is the titular leader of the government of the &%GeopoliticalArea ?POLITY and represents it at official functions. The office held by this chief of state is ?ROLE (e.g., President, Queen, Chairman). Note: this term is defined as in the CIA World Fact Book.\"") (type INSTANCE) ;+ (allowed-classes Human) (create-accessor read-write)) (single-slot PastFn_3 ;+ (comment "\"A &%UnaryFunction that maps a &%TimePosition to the &%TimeInterval that meets it and that begins at &%NegativeInfinity.\"") (type INSTANCE) ;+ (allowed-classes TimeInterval) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot PremisesFn_1 ;+ (comment "\"(&%PremisesFn ?ARGUMENT) returns the complete set of &%premises of the &%Argument ?ARGUMENT.\"") (type INSTANCE) ;+ (allowed-classes Proposition) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot JudiciaryFn_1 ;+ (comment "\"(&%JudiciaryFn ?AREA) denotes the judicial branch of the &%GeopoliticalArea ?AREA, that is, the &%JudicialOrganization(s) associated with the government of ?AREA, considered as a whole.\"") (type INSTANCE) ;+ (allowed-classes JudicialOrganization) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot tangent_1 ;+ (comment "\"(&%tangent ?LINE ?CIRCLE) means that the straight line ?LINE is tangent to the &%Circle ?CIRCLE, i.e. ?LINE touches ?CIRCLE without intersecting it.\"") (type INSTANCE) ;+ (allowed-classes Circle) (create-accessor read-write)) (single-slot teacher_1 ;+ (comment "\"(&%teacher ?AGENT ?ORG) means that ?AGENT is a teacher at the &%EducationalOrganization ?ORG.\"") (type INSTANCE) ;+ (allowed-classes CognitiveAgent) ;+ (cardinality 0 1) ;+ (subslot-of member_2) (create-accessor read-write)) (multislot properlyFills_1 ;+ (comment "\"(&%properlyFills ?OBJ ?HOLE) means that ?HOLE is properly (though perhaps incompletely) filled by ?OBJ, i.e. some part of ?HOLE is perfectly filled by ?OBJ. Note that &%properlyFills is the dual of &%completelyFills, and is so related to &%partiallyFills that ?OBJ &%properlyFills ?HOLE just in case ?OBJ &%partiallyFills every part of ?HOLE. (Thus, every perfect filler is both complete and proper in this sense).\"") (type INSTANCE) ;+ (allowed-classes Hole) ;+ (subslot-of partiallyFills_2) (create-accessor read-write)) (single-slot monetaryValue_1 ;+ (comment "\"A &%BinaryPredicate that associates an &%Object with its value expressed as an instance of &%CurrencyMeasure.\"") (type INSTANCE) ;+ (allowed-classes CurrencyMeasure) ;+ (cardinality 0 1) ;+ (subslot-of measure_2) (create-accessor read-write)) (multislot capability_1 ;+ (comment "\"(&%capability ?PROCESS ?ROLE ?OBJ) means that ?OBJ has the ability to play the role of ?ROLE in &%Processes of type ?PROCESS.\"") (type INSTANCE) ;+ (allowed-classes Object) (create-accessor read-write)) (single-slot subset ;+ (comment "\"(subset ?SET1 ?SET2) is true just in case the &%elements of the &%Set ?SET1 are also &%elements of the &%Set ?SET2.\"") (type INSTANCE) ;+ (allowed-classes Set) ;+ (cardinality 0 1) ;+ (subslot-of subclass_2) (create-accessor read-write)) (multislot hasField_5 ;+ (comment "hasField relates a StructuredText to the fields that comprise its structure. \nFor multiple subfield, see hasField1, hasField2, etc.") (type INSTANCE) ;+ (allowed-classes) (cardinality 2 ?VARIABLE) (create-accessor read-write)) (multislot isUsedIn_1 ;+ (comment "\"isUsedBy relates a useful thing - concrete or abstract to the Process in which it is used by some unspecified CognitiveAgent who uses it in that process. See related relation uses, specifying an object used by an Agent in an unspecified process.\"") (type INSTANCE) ;+ (allowed-classes IntentionalProcess) (create-accessor read-write)) (multislot primaryGeopoliticalSubdivision_2 ;+ (comment "\"(&%primaryGeopoliticalSubdivision ?AREA ?COUNTRY) means that the &%GeopoliticalArea ?AREA is one of the first-order administrative divisions of the &%Nation ?COUNTRY. For example, in the United States, any of the fifty states. This does not include subordinate regions that have a lesser status, such as British Crown colonies, U.S. territories, or protectorates. See &%geopoliticalSubdivision.\"") (type INSTANCE) ;+ (allowed-classes GeopoliticalArea) ;+ (subslot-of geopoliticalSubdivision_2) (create-accessor read-write)) (single-slot %3ADomain3Type ;+ (comment "The type of the fifth argument, class or instance.\n It specifies whether the first domain argument is an instance of the specified class or a subclass.\n In SUMO, this signals whether the proposition describing the domains of the relation use the relation name \"domain\" or \"domainSubclass\".") (type SYMBOL) (allowed-values Class Instance) ;+ (cardinality 0 1) ;+ (associated-facet UBLinv018t_00300) (create-accessor read-write)) (single-slot MeasureFn_2 ;+ (comment "\"This &%BinaryFunction maps a &%RealNumber and a &%UnitOfMeasure to that &%Number of units. It is used for expressing &%ConstantQuantities. For example, the concept of three meters is represented as (&%MeasureFn 3 &%Meter).\"") (type INSTANCE) ;+ (allowed-classes ConstantQuantity) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot humanCapacity_2 ;+ (comment "\"(&%humanCapacity ?CONSTRUCT ?NUMBER) means that the &%StationaryArtifact ?CONSTRUCT, e.g. a &%Building or a &%Room, can hold a maximum of ?NUMBER &%Humans without crowding.\"") (type INSTANCE) ;+ (allowed-classes PositiveInteger) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot causesSubclass_2 ;+ (comment "\"The causation relation between subclasses of &%Process. (&%causesSubclass ?PROCESS1 ?PROCESS2) means that the subclass of &%Process ?PROCESS1 brings about the subclass of &%Process ?PROCESS2, e.g. (&%causes &%Killing &%Death).\"") (type SYMBOL) ;+ (allowed-parents Process) (create-accessor read-write)) (multislot industryProductType_1 ;+ (comment "\"(&%industryProductType ?INDUSTRY ?TYPE) means that organizations with the &%IndustryAttribute ?INDUSTRY produce products of the kind ?TYPE.\"") (type SYMBOL) ;+ (allowed-parents Object) (create-accessor read-write)) (multislot maintainedBy_1 ;+ (comment "\"maintainedBy is used to assert that a particular instance of an entity can be modified in some way, and specifies the agen who has the authority or responsibility to do the modifying. In this relation, the method of modifying is unspecified. The entity maintained can be physical, such as a building maintained by its owner or manager, or an AbstractCode, maintained by a StandardsAuthority. In the general case, there may be more than one maintaining agent.\"") (type INSTANCE) ;+ (allowed-classes CognitiveAgent) (create-accessor read-write)) (single-slot connectsEngineeringComponents ;+ (comment "\"&%connectsEngineeringComponents is a &%TernaryPredicate that maps from an &%EngineeringConnection to the &%EngineeringComponents it connects. Since &%EngineeringComponents cannot be connected to themselves and there cannot be an &%EngineeringConnection without a &%connectedEngineeringComponents &%Predicate, the second and third arguments of any &%connectsEngineeringComponents relationship will always be distinct for any given first argument.\"") (type INSTANCE) ;+ (allowed-classes EngineeringComponent) ;+ (cardinality 0 1) ;+ (subslot-of connects_2) (create-accessor read-write)) (single-slot enjoys ;+ (comment "\"(&%enjoys ?AGENT ?PROCESS) means that the &%CognitiveAgent ?AGENT tends to enjoy actions of type ?PROCESS, i.e. tends to enjoy being the &%agent or &%experiencer of such actions.\"") (type INSTANCE) ;+ (allowed-classes IntentionalProcess) ;+ (cardinality 0 1) ;+ (subslot-of inScopeOfInterest_2) (create-accessor read-write)) (single-slot MereologicalProductFn_3 ;+ (comment "\"(&%MereologicalProductFn ?OBJ1 ?OBJ2) denotes the &%Object consisting of the parts which belong to both ?OBJ1 and ?OBJ2.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot %3Adocumentation ;+ (comment "A relation between objects in the domain of discourse and strings of natural language text. The domain of &%documentation is not constants (names), but the objects themselves. This means that one does not quote the names when associating them with their documentation.") (type STRING) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot MonthFn_2 ;+ (comment "\"A &%BinaryFunction that maps a subclass of &%Month and a subclass of &%Year to the class containing the &%Months corresponding to thos &%Years. For example (&%MonthFn &%January (&%YearFn 1912)) is the class containing the eighth &%Month, i.e. August, of the &%Year 1912. For another example, (&%MonthFn &%August &%Year) is equal to &%August, the class of all months of August. Note that this function returns a &%Class as a value. The reason for this is that the related functions, viz. DayFn, HourFn, MinuteFn, and SecondFn, are used to generate both specific &%TimeIntervals and recurrent intervals, and the only way to do this is to make the domains and ranges of these functions classes rather than individuals.\"") (type SYMBOL) ;+ (allowed-parents Month) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot earlier_4 ;+ (comment "\"(&%earlier ?INTERVAL1 ?INTERVAL2) means that the &%TimeInterval ?INTERVAL1 ends before the &%TimeInterval ?INTERVAL2 begins.\"") (type INSTANCE) ;+ (allowed-classes TimeInterval) (create-accessor read-write)) (single-slot AssignmentFn_2 ;+ (comment "\"If F is a function with a value for the objects denoted by N1,..., NK, then the term (AssignmentFn F N1 ... NK) denotes the value of applying F to the objects denoted by N1,..., NK. Otherwise, the value is undefined.\"") (type INSTANCE) ;+ (allowed-classes %3ARow) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot hasField_4 ;+ (comment "hasField relates a StructuredText to the fields that comprise its structure. \nFor multiple subfield, see hasField_1, hasField_2, etc.") (type INSTANCE) ;+ (allowed-classes) (cardinality 2 ?VARIABLE) (create-accessor read-write)) (single-slot YearFn_2 ;+ (comment "\"A &%UnaryFunction that maps a number to the corresponding calendar &%Year. For example, (&%YearFn 1912) returns the &%Class containing just one instance, the year of 1912. As might be expected, positive integers return years in the Common Era, while negative integers return years in B.C.E. Note that this function returns a &%Class as a value. The reason for this is that the related functions, viz. &%MonthFn, &%DayFn, &%HourFn, &%MinuteFn, and &%SecondFn, are used to generate both specific &%TimeIntervals and recurrent intervals, and the only way to do this is to make the domains and ranges of these functions classes rather than individuals.\"") (type SYMBOL) ;+ (allowed-parents Year) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot telephoneNumber_2 ;+ (comment "\"(&%telephoneNumber ?NUMBER ?AGENT) means that ?NUMBER is a telephone number at which ?AGENT can be regularly contacted.\"") (type INSTANCE) ;+ (allowed-classes Agent) ;+ (cardinality 0 1) ;+ (subslot-of uniqueIdentifier_2) (create-accessor read-write)) (single-slot CosineFn_2 ;+ (comment "\"(&%CosineFn ?DEGREE) returns the cosine of the &%PlaneAngleMeasure ?DEGREE. The cosine of ?DEGREE is the ratio of the side next to ?DEGREE to the hypotenuse in a right-angled triangle.\"") (type INSTANCE) ;+ (allowed-classes RealNumber) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot partition ;+ (comment "\"A &%partition of a class C is a set of mutually &%disjoint classes (a subclass partition) which covers C. Every instance of C is an instance of exactly one of the subclasses in the partition.\"") (type INSTANCE) ;+ (allowed-classes %3AUBL-CLASS %3ATHING) (create-accessor read-write)) (multislot member_2 ;+ (comment "\"A specialized common sense notion of part for uniform parts of &%Collections. For example, each sheep in a flock of sheep would have the relationship of member to the flock.\"") (type INSTANCE) ;+ (allowed-classes Collection) ;+ (subslot-of part_2) (create-accessor read-write)) (single-slot SubtractionFn_4 ;+ (comment "\"If ?NUMBER1 and ?NUMBER2 are &%Numbers, then (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the arithmetical difference between ?NUMBER1 and ?NUMBER2, i.e. ?NUMBER1 minus ?NUMBER2. An exception occurs when ?NUMBER1 is equal to 0, in which case (&%SubtractionFn ?NUMBER1 ?NUMBER2) is the negation of ?NUMBER2.\"") (type INSTANCE) ;+ (allowed-classes Quantity) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot causes_2 ;+ (comment "\"The causation relation between instances of &%Process. (&%causes ?PROCESS1 ?PROCESS2) means that the instance of &%Process ?PROCESS1 brings about the instance of &%Process ?PROCESS2, e.g. (&%causes &%Killing &%Death).\"") (type INSTANCE) ;+ (allowed-classes Process) (create-accessor read-write)) (multislot partiallyFills_2 ;+ (comment "\"(&%partiallyFills ?OBJ ?HOLE) means that ?OBJ &%completelyFills some part of ?HOLE. Note that if (&%partiallyFills ?OBJ1 ?HOLE) and (&%part ?OBJ1 ?OBJ2), then (&%partiallyFills ?OBJ2 ?HOLE). Note too that a partial filler need not be wholly inside a hole (it may stick out), which means that every complete filler also qualifies as (is a limit case of) a partial one.\"") (type INSTANCE) ;+ (allowed-classes Hole) ;+ (subslot-of located_2) (create-accessor read-write)) (multislot destination_1 ;+ (comment "\"(destination ?PROCESS ?GOAL) means that ?GOAL is the target or goal of the Process ?PROCESS. For example, Danbury would be the destination in the following proposition: Bob went to Danbury. Note that this is a very general &%CaseRole and, in particular, that it covers the concepts of 'recipient' and 'beneficiary'. Thus, John would be the &%destination in the following proposition: Tom gave a book to John.\"") (type INSTANCE) ;+ (allowed-classes Entity) (create-accessor read-write)) (single-slot contestParticipant_1 ;+ (comment "\"(&%contestParticipant ?CONTEST ?AGENT) means that ?AGENT is one of the sides in the &%Contest ?CONTEST. For example, if the ?CONTEST is a football game, then ?AGENT would be one of the opposing teams. For another example, if ?CONTEST is a &%Battle, then ?AGENT would be one of the sides fighting each other.\"") (type INSTANCE) ;+ (allowed-classes Agent) ;+ (cardinality 0 1) ;+ (subslot-of agent_1) (create-accessor read-write)) (multislot temporallyBetweenOrEqual_2 ;+ (comment "\"(&%temporallyBetweenOrEqual ?POINT1 ?POINT2 ?POINT3) means that the &%TimePoint ?POINT1 is before or equal to the &%TimePoint ?POINT2 and ?POINT2 is before or equal to the &%TimePoint ?POINT3.\"") (type INSTANCE) ;+ (allowed-classes TimePoint) (create-accessor read-write)) (single-slot RationalNumberFn_1 ;+ (comment "\"(&%RationalNumberFn ?NUMBER) returns the rational representation of ?NUMBER.\"") (type INSTANCE) ;+ (allowed-classes RationalNumber) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot capacity_1 ;+ (comment "\"(&%capacity ?OBJ ?QUANTITY) means that ?OBJ can contain something that has the &%measure of ?QUANTITY. This predicate denotes maximal capacity, i.e. ?OBJ can hold no more than ?QUANTITY. Note, however, that this does not mean that &%capacity is a &%SingleValuedRelation, since an object may have various maximal capacities across different dimensions, e.g. a particular box may have a &%capacity of 3 pounds and a &%capacity of 1 liter.\"") (type INSTANCE) ;+ (allowed-classes ConstantQuantity) (create-accessor read-write)) (multislot exists_2 ;+ (comment "\"The existential quantifier of predicate logic.\"") (type INSTANCE) ;+ (allowed-classes Formula) (create-accessor read-write)) (single-slot length ;+ (comment "\"&%BinaryPredicate that is used to state the measure of an &%Object from one point to another point along its surface. Note that the difference between the predicates &%length and &%distance is that the &%length is used to state the &%LengthMeasure of one of the dimensions of a single object, while &%distance is used to state the &%LengthMeasure that separates two distinct objects\"") (type INSTANCE) ;+ (allowed-classes LengthMeasure) ;+ (cardinality 0 1) ;+ (subslot-of measure_2) (create-accessor read-write)) (single-slot KiloFn_2 ;+ (comment "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to 1,000 units of the original &%UnitOfMeasure. For example, (&%KiloFn &%Gram) is 1,000 &%Grams.\"") (type INSTANCE) ;+ (allowed-classes UnitOfMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot range_2 ;+ (comment "\"Gives the range of a function. In other words, (&%range ?FUNCTION ?CLASS) means that all of the values assigned by ?FUNCTION are &%instances of ?CLASS.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) (create-accessor read-write)) (multislot temporalPart_3 ;+ (comment "\"The temporal analogue of the spatial &%part predicate. (&%temporalPart ?POS1 ?POS2) means that &%TimePosition ?POS1 is part of &%TimePosition ?POS2. Note that since &%temporalPart is a &%ReflexiveRelation every &%TimePostion is a &%temporalPart of itself.\"") (type INSTANCE) ;+ (allowed-classes TimePosition) (create-accessor read-write)) (single-slot BeginNodeFn_2 ;+ (comment "\"A &%UnaryFunction that maps a &%GraphPath to the &%GraphNode that is the beginning of the &%GraphPath. Note that, unlike &%InitialNodeFn (which relates a &%GraphArc to a &%GraphNode), &%BeginNodeFn is a total function - every &%GraphPath has a beginning.\"") (type INSTANCE) ;+ (allowed-classes GraphNode) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot %3AliteralTranscription ;+ (comment ":literalTranscription is a byte-for-byte copy of the input proposition.") (type STRING) ;+ (cardinality 1 1) (create-accessor read-write)) (multislot isaNameOf_2 ;+ (comment "\"isaNameOf is the relation between a string intended to identify something and the thing it identifies. This is the analogous relation for AbstractStrings to 'names' which relates physical symbols to their referents.\"") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (inverse-slot hasAbstractName_1) (create-accessor read-write)) (single-slot attribute_2 ;+ (comment "\"(&%attribute ?OBJECT ?PROPERTY) means that ?PROPERTY is a &%Attribute of ?OBJECT. For example, (&%attribute &%MyLittleRedWagon &%Red).\"") (type INSTANCE) ;+ (allowed-classes Attribute) ;+ (cardinality 0 1) ;+ (subslot-of property_1) (create-accessor read-write)) (single-slot ImmediatePastFn_3 ;+ (comment "\"A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately precedes the &%TimePosition.\"") (type INSTANCE) ;+ (allowed-classes TimeInterval) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot %3ADomain4Value ;+ (comment "The value of the fifth argument") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (cardinality 0 1) ;+ (associated-facet UBLinv018t_00304) (create-accessor read-write)) (multislot hasOccupation_1 ;+ (comment "\"(&%hasOccupation ?PERSON ?WORK) means that ?PERSON engages in activities of the class ?WORK as a means of earning a living.\"") (type SYMBOL) ;+ (allowed-parents IntentionalProcess) (create-accessor read-write)) (multislot irreflexiveOn_2 ;+ (comment "\"A &%BinaryRelation is irreflexive on a &%SetOrClass only if no instance of the &%SetOrClass bears the relation to itself.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) (create-accessor read-write)) (single-slot TangentFn_2 ;+ (comment "\"(&%TangentFn ?DEGREE) is the tangent of the &%PlaneAngleMeasure ?DEGREE. The tangent of ?DEGREE is the ratio of the side opposite ?DEGREE to the side next to ?DEGREE in a right-angled triangle.\"") (type INSTANCE) ;+ (allowed-classes RealNumber) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot relatedExternalConcept ;+ (comment "\"Used to signify a three-place relation between a concept in an external knowledge source, a concept in the SUMO, and the name of the other knowledge source.\"") (type INSTANCE) ;+ (allowed-classes %3ALanguage) (create-accessor read-write)) (single-slot PopulationFn_1 ;+ (comment "\"(&%PopulationFn ?AREA) denotes the &%Integer that represents the count of the number of people inhabiting the &%GeopoliticalArea ?AREA. The total population presents one overall measure of the potential impact of the country on the world and within its region.\"") (type INSTANCE) ;+ (allowed-classes Integer) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot ResidentFn_1 ;+ (comment "\"(&%ResidentFn ?AREA) denotes the &%GroupOfPeople who have their &%home in ?AREA.\"") (type INSTANCE) ;+ (allowed-classes GroupOfPeople) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot principalAmount_1 ;+ (comment "\"(&%principalAmount ?ACCOUNT ?BALANCE) means that ?BALANCE is the amount originally borrowed (excluding interest).\"") (type INSTANCE) ;+ (allowed-classes CurrencyMeasure) (create-accessor read-write)) (single-slot FloorFn_2 ;+ (comment "\"(&%FloorFn ?NUMBER) returns the largest &%Integer less than or equal to the &%RealNumber ?NUMBER.\"") (type INSTANCE) ;+ (allowed-classes Integer) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot %3ASYNONYMS ;+ (comment "A list of synonyms in natural or formal languages for the concept represetned by this class.") (type INSTANCE) ;+ (allowed-classes %3ASynonym) ;+ (inverse-slot %3AisaSynonymOf) ;+ (associated-facet SKIFcore4_00382) (create-accessor read-write)) (multislot connects_2 ;+ (comment "\"The relationship between three things, when one of the three things connects the other two. More formally, (&%connects ?OBJ1 ?OBJ2 ?OBJ3) means that (&%connected ?OBJ1 ?OBJ2) and (&%connected ?OBJ1 ?OBJ3) and not (&%connected ?OBJ2 ?OBJ3).\"") (type INSTANCE) ;+ (allowed-classes SelfConnectedObject) ;+ (inverse-slot connects_2) (create-accessor read-write)) (multislot greaterThan_4 ;+ (comment "\"(&%greaterThan ?NUMBER1 ?NUMBER2) is true just in case the &%Quantity ?NUMBER1 is greater than the &%Quantity ?NUMBER2.\"") (type INSTANCE) ;+ (allowed-classes Quantity) ;+ (inverse-slot lessThan_4) (create-accessor read-write)) (single-slot DocumentFn_1 ;+ (comment "\"(&%DocumentFn ?PROP) denotes the class of &%ContentBearingObjects that contain the information ?PROP.\"") (type SYMBOL) ;+ (allowed-parents Text) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot NumeratorFn_2 ;+ (comment "\"(&%NumeratorFn ?NUMBER) returns the numerator of the canonical reduced form ?NUMBER.\"") (type INSTANCE) ;+ (allowed-classes Integer) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot ListConcatenateFn_2 ;+ (comment "\"A &%Function that returns the concatenation of the two &%Lists that are given as arguments. For example, the value of (&%ListConcatenateFn (&%ListFn &%Monday &%Tuesday) (&%ListFn &%Wednesday &%Thursday)) would be (&%ListFn &%Monday &%Tuesday &%Wednesday &%Thursday).\"") (type INSTANCE) ;+ (allowed-classes List) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot domainSubclass_1 ;+ (comment "\"&%Predicate used to specify argument type restrictions of &%Predicates. The formula (&%domainSubclass ?REL ?INT ?CLASS) means that the ?INT'th element of each tuple in the relation ?REL must be a subclass of ?CLASS.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) (create-accessor read-write)) (single-slot result ;+ (comment "\"(result ?ACTION ?OUTPUT) means that ?OUTPUT is a product of ?ACTION. For example, house is a &%result in the following proposition: Eric built a house.\"") (type INSTANCE) ;+ (allowed-classes Entity) ;+ (cardinality 0 1) ;+ (subslot-of patient_1) (create-accessor read-write)) (multislot currentAccountBalance_1 ;+ (comment "\"(&%currentAccountBalance ?Account ?Date ?Amount) means that ?Amount is the balance of the &%FinancialAccount ?Account as of the date ?Date.\"") (type INSTANCE) ;+ (allowed-classes CurrencyMeasure) (create-accessor read-write)) (multislot independentProbability_3 ;+ (comment "\"One of the basic &%ProbabilityRelations. (&%independentProbability ?FORMULA1 ?FORMULA2) means that the probabilities of ?FORMULA1 and ?FORMULA2 being true are independent.\"") (type INSTANCE) ;+ (allowed-classes Formula) ;+ (inverse-slot independentProbability_3) (create-accessor read-write)) (multislot monetaryWage_1 ;+ (comment "\"(&%monetaryWage ?ORG ?PERSON ?TIME ?MONEY) means that the &%Organization employs ?PERSON and pays him/her the amount of money ?MONEY per &%TimeDuration ?TIME.\"") (type INSTANCE) ;+ (allowed-classes CurrencyMeasure) (create-accessor read-write)) (single-slot ImmediateFutureFn_3 ;+ (comment "\"A &%UnaryFunction that maps a &%TimePosition to a short, indeterminate &%TimeInterval that immediately follows the &%TimePosition.\"") (type INSTANCE) ;+ (allowed-classes TimeInterval) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot ComplementFn_2 ;+ (comment "\"The complement of a given &%SetOrClass C is the &%SetOrClass of all things that are not instances of C. In other words, an object is an instance of the complement of a &%SetOrClass C just in case it is not an instance of C.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot geometricDistance_3 ;+ (comment "\"(&%geometricDistance ?POINT1 ?POINT2 ?LENGTH) means that ?LENGTH is the distance between the two &%GeometricPoints ?POINT1 and ?POINT2.\"") (type INSTANCE) ;+ (allowed-classes LengthMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot streetNumber ;+ (comment "\"(&%streetNumber ?BUILDING ?ADDRESS) means that the &%Building ?BUILDING is part of the address ?ADDRESS.\"") (type INSTANCE) ;+ (allowed-classes Address) ;+ (cardinality 0 1) ;+ (subslot-of address_1) (create-accessor read-write)) (single-slot ImaginaryPartFn_2 ;+ (comment "\"(&%ImaginaryPartFn ?NUMBER) returns the part of ?NUMBER that has the square root of -1 as its factor.\"") (type INSTANCE) ;+ (allowed-classes ImaginaryNumber) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot GeneralizedUnionFn_2 ;+ (comment "\"A &%UnaryFunction that takes a &%SetOrClass of &%Classes as its single argument and returns a &%SetOrClass which is the merge of all of the &%Classes in the original &%SetOrClass, i.e. the &%SetOrClass containing just those instances which are instances of an instance of the original &%SetOrClass.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot minimumCardinality_1 ;+ (comment "\"(minimumCardinality ?REL ?NUMBER) means that, for any given assignment of a first argument to ?REL, there will be at least ?NUMBER assignments to the second argument of ?REL.\"") (type INSTANCE) ;+ (allowed-classes NonnegativeInteger) (create-accessor read-write)) (single-slot CutSetFn_1 ;+ (comment "\"A &%UnaryFunction that assigns a &%Graph the &%Class of &%GraphPaths that partition the graph into two separate graphs if cut. There may be more than one cutset for a given graph.\"") (type SYMBOL) ;+ (allowed-parents GraphPath) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot GraphPathFn_2 ;+ (comment "\"A &%BinaryFunction that maps two &%GraphNodes to the &%Class of &%GraphPaths between those two nodes. Note that the two &%GraphNodes must belong to the same &%Graph.\"") (type SYMBOL) ;+ (allowed-parents GraphPath) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot immediateInstance_2 ;+ (comment "\"An object is an &%immediateInstance of a &%SetOrClass if it is an instance of the &%SetOrClass and there does not exist a subclass of &%SetOrClass such that it is an instance of the subclass.\"") (type INSTANCE) ;+ (allowed-classes SetOrClass) ;+ (cardinality 0 1) ;+ (subslot-of instance_1) (create-accessor read-write)) (single-slot exhaustiveDecomposition_2 ;+ (comment "\"An &%exhaustiveDecomposition of a &%Class C is a set of subclasses of C such that every subclass of C either is an element of the set or is a subclass of an element of the set. Note: this does not necessarily mean that the elements of the set are disjoint (see &%partition - a &%partition is a disjoint exhaustive decomposition.)\"") (type INSTANCE) ;+ (allowed-classes %3ARow) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot wants_1 ;+ (comment "\"(&%wants ?AGENT ?OBJECT) means that ?OBJECT is desired by ?AGENT, i.e. ?AGENT believes that ?OBJECT will satisfy one of its goals. Note that there is no implication that what is wanted by an agent is not already possessed by the agent.\"") (type INSTANCE) ;+ (allowed-classes Physical) ;+ (cardinality 0 1) ;+ (subslot-of inScopeOfInterest_2) (create-accessor read-write)) (multislot partlyLocated_3 ;+ (comment "\"(&%partlyLocated ?THING ?OBJ) means that the instance of &%Physical ?THING is at least partially located at ?OBJ. For example, Istanbul is partly located in Asia and partly located in Europe. Note that &%partlyLocated is the most basic localization relation: &%located is an immediate &%subrelation of &%partlyLocated and &%exactlyLocated is an immediate &%subrelation of &%located.\"") (type INSTANCE) ;+ (allowed-classes Object) (create-accessor read-write)) (multislot increasesLikelihood_3 ;+ (comment "\"One of the basic &%ProbabilityRelations. (&%increasesLikelihood ?FORMULA1 ?FORMULA2) means that ?FORMULA2 is more likely to be true if ?FORMULA1 is true.\"") (type INSTANCE) ;+ (allowed-classes Formula) (create-accessor read-write)) (single-slot %3ASUO-name ;+ (comment "The :SUO-name is the name of an instance that is used for display. This is an important element of the ontology as it permits the assignment of instances to multiple classes, a tactic forbidden by the Protege program, which requires that all frame names be unique.\n Thus, if an instance of any concept has a :SUO-name, that name is the one that will appear in \"instance\" propositions that are exported to a KIF data file.") (type STRING) ;+ (cardinality 0 1) ;+ (associated-facet KIFcore2_00373) (create-accessor read-write)) (multislot orientation_2 ;+ (comment "\"A general &%Predicate for indicating how two &%Objects are oriented with respect to one another. For example, (orientation ?OBJ1 ?OBJ2 North) means that ?OBJ1 is north of ?OBJ2, and (orientation ?OBJ1 ?OBJ2 Vertical) means that ?OBJ1 is positioned vertically with respect to ?OBJ2.\"") (type INSTANCE) ;+ (allowed-classes PositionalAttribute) (create-accessor read-write)) (multislot beforeOrEqual_3 ;+ (comment "\"(&%beforeOrEqual ?POINT1 ?POINT2) means that ?POINT1 is identical with ?POINT2 or occurs before it on the universal timeline.\"") (type INSTANCE) ;+ (allowed-classes TimePoint) (create-accessor read-write)) (multislot hasField_7 ;+ (comment "hasField relates a StructuredText to the fields that comprise its structure. \nFor multiple subfield, see hasField1, hasField2, etc.") (type INSTANCE) ;+ (allowed-classes) (cardinality 2 ?VARIABLE) (create-accessor read-write)) (multislot overlapsTemporally_4 ;+ (comment "\"(&%overlapsTemporally ?INTERVAL1 ?INTERVAL2) means that the &%TimeIntervals ?INTERVAL1 and ?INTERVAL2 have a &%TimeInterval as a common part.\"") (type INSTANCE) ;+ (allowed-classes TimeInterval) ;+ (inverse-slot overlapsTemporally_4) (create-accessor read-write)) (single-slot PrincipalHostFn_4 ;+ (comment "\"A &%UnaryFunction that maps a &%Hole to the &%Object which is its principal host. The principle host of a &%Hole is its maximally connected host (a notion taken here to be defined only when the argument is a hole).\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot GovernmentFn_1 ;+ (comment "\"(&%GovernmentFn ?AREA) denotes the &%Government of the &%GeopoliticalArea ?AREA. For example, (&%GovernmentFn &%UnitedStates) denotes the Federal-level government of the United States; (&%GovernmentFn &%PuertoRico) denotes the government of the Commonwealth of Puerto Rico.\"") (type INSTANCE) ;+ (allowed-classes Government) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot subProcess_2 ;+ (comment "\"(&%subProcess ?SUBPROC ?PROC) means that ?SUBPROC is a subprocess of ?PROC. A subprocess is here understood as a temporally distinguished part (proper or not) of a &%Process.\"") (type INSTANCE) ;+ (allowed-classes Process) (create-accessor read-write)) (single-slot groupMember_1 ;+ (comment "\"A &%subrelation of &%member, &%groupMember is used to relate a &%Human to a &%GroupOfPeople of which he/she is a &%member.\"") (type INSTANCE) ;+ (allowed-classes GroupOfPeople) ;+ (cardinality 0 1) ;+ (subslot-of member_2) (create-accessor read-write)) (single-slot FrontFn_5 ;+ (comment "\"A &%Function that maps an &%Object to the side that generally receives the most attention or that typically faces the direction in which the &%Object moves. Note that this is a partial function, since some &%Objects do not have sides, e.g. apples and spheres. Note too that the &%range of this &%Function is indefinite in much the way that &%ImmediateFutureFn and &%ImmediatePastFn are indefinite. Although this indefiniteness is undesirable from a theoretical standpoint, it does not have significant practical implications, since there is widespread intersubjective agreement about the most common cases.\"") (type INSTANCE) ;+ (allowed-classes SelfConnectedObject) ;+ (cardinality 0 1) (create-accessor read-write)) (single-slot lacks_1 ;+ (comment "\"(&%lacks ?AGENT ?OBJECT) means that ?AGENT &%needs ?OBJECT and it is not currently the case that ?AGENT &%possesses ?OBJECT.\"") (type INSTANCE) ;+ (allowed-classes Physical) ;+ (cardinality 0 1) ;+ (subslot-of needs_1) (create-accessor read-write)) (single-slot initialList_2 ;+ (comment "\"(&%initialList ?LIST1 ?LIST2) means that ?LIST1 is a &%subList of ?LIST2 and (&%ListOrderFn ?LIST1 ?NUMBER) returns the same value as (&%ListOrderFn ?LIST2 ?NUMBER) for all of the values of ?NUMBER over which (&%ListOrderFn ?LIST1 ?NUMBER) is defined.\"") (type INSTANCE) ;+ (allowed-classes List) ;+ (cardinality 0 1) ;+ (subslot-of subList_2) (create-accessor read-write)) (single-slot PicoFn_2 ;+ (comment "\"A &%UnaryFunction that maps a &%UnitOfMeasure into a &%UnitOfMeasure that is equal to .000000000001 units of the original &%UnitOfMeasure. For example, (&%PicoFn &%Ampere) is .000000000001 &%Amperes.\"") (type INSTANCE) ;+ (allowed-classes UnitOfMeasure) ;+ (cardinality 0 1) (create-accessor read-write)) (multislot legalRelation_2 ;+ (comment "\"(&%legalRelation ?AGENT1 ?AGENT2) means there is a relationship involving legal obligations between ?AGENT1 and ?AGENT2. Some examples include marriage, adoption, etc.\"") (type INSTANCE) ;+ (allowed-classes CognitiveAgent) ;+ (inverse-slot legalRelation_2) (create-accessor read-write)) (single-slot financialAsset ;+ (comment "\"A predicate that relates an &%Agent to any item of economic value owned by the &%Agent. Examples of financial assets are cash, securities, accounts receivable, inventory, office equipment, a house, a car, and other property.\"") (type INSTANCE) ;+ (allowed-classes Object) ;+ (cardinality 0 1) ;+ (subslot-of possesses_2) (create-accessor read-write)) (multislot hasRestrictedAudience_2 ;+ (comment "\"hasRestrictedAudience relates a Message with a restricted list of intended recipients to that list of recipients.\"") (type INSTANCE) ;+ (allowed-classes SpecifiedGroup) ;+ (subslot-of hasIntendedAudience_1) (create-accessor read-write)) (multislot desires_1 ;+ (comment "\"(&%desires ?AGENT ?FORMULA) means that ?AGENT wants to bring about the state of affairs expressed by ?FORMULA. Note that there is no implication that what is desired by the agent is not already true. Note too that &%desires is distinguished from &%wants only in that the former is a &%PropositionalAttitude, while &%wants is an &%ObjectAttitude.\"") (type INSTANCE) ;+ (allowed-classes Formula) ;+ (subslot-of inScopeOfInterest_2) (create-accessor read-write)) (single-slot arcWeight_2 ;+ (comment "\"This predicate indicates