domain |
appearance as argument number 1 |
(documentation domain ChineseLanguage "为声明某种特定关系参数的类型, 提供一个便利计算机和应用启发 式运算的机制。公式(domain ?REL ?INT ?CLASS)的意思是在?REL关系中,每个元组的第?INT个元素,必须是 ?CLASS种的一个实例。 指定参数类型对维护知识本体甚有裨益。 表示知识的系统可以使用这些规范来把术语分类, 并检查系统的完整性约束有否受到破坏。如果出现某个Relation参数类型的限制,还没有在知识本体内现有 SetOrClass 定义所描述时,可以使用 UnionFn 和 IntersectionFn 等这些功能,来逐一指定该 SetOrClass 的限制。") | chinese_format.kif 1380-1385 | |
(documentation domain EnglishLanguage "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 Class already defined in the ontology, one can specify a Class compositionally with the functions UnionFn, IntersectionFn, etc.") | Merge.kif 211-219 | |
(documentation domain JapaneseLanguage "特定の関係の引数タイプを宣言するための計算および ヒューリスティックに便利なメカニズムの提供。 式 (domain ?REL ?INT ?CLASS) とは、リレーション ?RELのそれぞれのタプルの?INT番目の要素が?CLASSのインスタンスでなければならない、という意味である。 引数タイプを指定することはオントロジーの維持に非常に役立つ。 表現システムは、これらの仕様を使用して 用語を分類し、整合性制約を確認する。Relation の引数タイプの制限が、すでにオントロジーで定義され ている SetOrClass でキャプチャされない場合、UnionFn、IntersectionFn などの関数を使用して 構成的に SetOrClass を指定できる。") | japanese_format.kif 38-44 | |
(documentation domain SpanishLanguage "Provee un mecanismo computacionalmente y de manera heurística conveniente para declarar los tipos de argumentos en una relación dada. La fórmula (domain ?REL ?INT ?CLASS) significa que el ?INT-ésimo elemento de cada tupla en la relación ?REL debe ser una instancia de ?CLASS. Especificar los tipos de argumentos es muy util para mantener una ontología. Los sistemas de representación pueden usar estas especificaciones para clasificar términos y verificar las restricciones de integridad. Si la restricción en el tipo de argumento Relation no es capturado por un SetOrClass ya definido, se puede especificar un SetOrClass composicionalmente con las funciones UnionFn, IntersectionFn, etc.") | spanish_format.kif 40-48 | |
(domain domain 1 Relation) | Merge.kif 208-208 | |
(domain domain 2 PositiveInteger) | Merge.kif 209-209 | |
(domain domain 3 Class) | Merge.kif 210-210 | |
(instance domain TernaryPredicate) | Merge.kif 207-207 |
appearance as argument number 2 |
(format ChineseLanguage domain "%1 的 %2 数量 %n 是 %3 的 instance") | chinese_format.kif 291-291 | |
(format EnglishLanguage domain "the number %2 argument of %1 is %n an instance of %3") | english_format.kif 296-296 | |
(format FrenchLanguage domain "le nombre %2 argument de %1 est %n une instance de %3") | french_format.kif 168-168 | |
(format ItalianLanguage domain "il numero %2 argomenti di %1 è %n un istanza di %3") | relations-it.txt 82-82 | |
(format JapaneseLanguage domain "%1 の数値 %2 引数は %3 の instance では %n") | japanese_format.kif 1988-1988 | |
(format PortugueseLanguage domain "o argumento numero %2 de %1 e' %n uma instancia de %3") | portuguese_format.kif 120-120 | |
(format cz domain "%2th argument of %1 %p{je} %n{nen�} an instance of %3") | relations-cz.txt 177-177 | |
(format de domain "die Zahl %2 Argument von %1 ist ein fall von %3 %n{nicht}") | relations-de.txt 378-378 | |
(format hi domain "%1 kaa koNaanka sankhyaaa %2, %3 kaa udaaharaNa %n hai") | relations-hindi.txt 122-122 | |
(format ro domain "argumentul numãrul %2 al lui %1 %n{nu} este o instance%t{instanþiere} a lui %3") | relations-ro.kif 188-188 | |
(format sv domain "nummer %2 argumentet till %1 är %n{inte} en instans av %3") | relations-sv.txt 175-175 | |
(format tg domain "ang bilang %2 bahagi ng %1 %n ay ang halimbawa ng %3") | relations-cb.txt 116-116 | |
(termFormat ChineseLanguage domain "域") | domainEnglishFormat.kif 20128-20128 | |
(termFormat ChineseLanguage domain "定义域") | chinese_format.kif 292-292 | |
(termFormat ChineseTraditionalLanguage domain "域") | domainEnglishFormat.kif 20127-20127 | |
(termFormat EnglishLanguage domain "domain") | domainEnglishFormat.kif 20126-20126 | |
(termFormat de domain "definitionsbereich") | terms-de.txt 118-118 | |
(termFormat tg domain "lupain") | relations-tg.txt 180-180 |
antecedent |
(=> (and (applicableRelation ?O ?R) (instance ?O ?OC) (domain ?R 1 ?DC)) (or (equal ?OC ?DC) (subclass ?OC ?DC))) |
Mid-level-ontology.kif 31652-31659 | |
(=> (and (domain ?REL ?NUMBER ?CLASS) (instance ?REL Predicate) (?REL @ROW)) (instance (ListOrderFn (ListFn @ROW) ?NUMBER) ?CLASS)) |
Merge.kif 2999-3004 | |
(=> (and (domain ?REL ?NUMBER ?CLASS1) (domain ?REL ?NUMBER ?CLASS2)) (or (subclass ?CLASS1 ?CLASS2) (subclass ?CLASS2 ?CLASS1))) |
Merge.kif 221-227 | |
(=> (and (domain ?REL1 ?NUMBER ?CLASS1) (domain ?REL2 ?NUMBER ?CLASS2) (disjoint ?CLASS1 ?CLASS2)) (disjointRelation ?REL1 ?REL2)) |
Merge.kif 419-424 | |
(=> (and (instance ?REL EconomicRelation) (domain ?REL 1 ?CLASS)) (subclass ?CLASS GeopoliticalArea)) |
Mid-level-ontology.kif 17123-17127 | |
(=> (and (subrelation ?PRED1 ?PRED2) (domain ?PRED2 ?NUMBER ?CLASS1)) (domain ?PRED1 ?NUMBER ?CLASS1)) |
Merge.kif 186-190 |
consequent |
(=> (and (subrelation ?PRED1 ?PRED2) (domain ?PRED2 ?NUMBER ?CLASS1)) (domain ?PRED1 ?NUMBER ?CLASS1)) |
Merge.kif 186-190 | |
(=> (instance ?FUN OneToOneFunction) (forall (?ARG1 ?ARG2) (=> (exists (?CLASS) (and (domain ?FUN 1 ?CLASS) (instance ?ARG1 ?CLASS) (instance ?ARG2 ?CLASS) (not (equal ?ARG1 ?ARG2)))) (not (equal (AssignmentFn ?FUN ?ARG1) (AssignmentFn ?FUN ?ARG2)))))) |
Merge.kif 3376-3386 | |
(=> (instance ?FUNCTION AssociativeFunction) (forall (?INST1 ?INST2 ?INST3 ?CLASS) (=> (and (domain ?FUNCTION 1 ?CLASS) (instance ?INST1 ?CLASS) (instance ?INST2 ?CLASS) (instance ?INST3 ?CLASS)) (equal (AssignmentFn ?FUNCTION ?INST1 (AssignmentFn ?FUNCTION ?INST2 ?INST3)) (AssignmentFn ?FUNCTION (AssignmentFn ?FUNCTION ?INST1 ?INST2) ?INST3))))) |
Merge.kif 3419-3429 | |
(=> (instance ?FUNCTION CommutativeFunction) (forall (?INST1 ?INST2 ?CLASS) (=> (and (domain ?FUNCTION 1 ?CLASS) (instance ?INST1 ?CLASS) (instance ?INST2 ?CLASS)) (equal (AssignmentFn ?FUNCTION ?INST1 ?INST2) (AssignmentFn ?FUNCTION ?INST2 ?INST1))))) |
Merge.kif 3439-3449 |
appearance as argument number 0 |
(domain ABPFn 1 Collection) | UXExperimentalTerms.kif 3225-3225 | |
(domain ASPFn 1 Collection) | UXExperimentalTerms.kif 3270-3270 | |
(domain AbortedFn 1 AutonomousAgent) | MilitaryProcesses.kif 2411-2411 | |
(domain AbortedFn 2 Process) | MilitaryProcesses.kif 2412-2412 | |
(domain AbortedLaunchFn 2 TakingOff) | MilitaryProcesses.kif 2529-2529 | |
(domain AbortedMissionFn 2 MilitaryOperation) | MilitaryProcesses.kif 2431-2431 | |
(domain AbsoluteValueFn 1 RealNumber) | Merge.kif 4763-4763 | |
(domain AccelerationFn 1 FunctionQuantity) | Cars.kif 1274-1274 | |
(domain AccelerationFn 2 TimeDuration) | Cars.kif 1275-1275 | |
(domain AccelerationFn 3 Object) | Cars.kif 1276-1276 | |
(domain AccelerationFn 4 DirectionalAttribute) | Cars.kif 1277-1277 | |
(domain AccountFn 1 FinancialAsset) | FinancialOntology.kif 2316-2316 | |
(domain AdditionFn 1 RealNumber) | Merge.kif 4713-4713 | |
(domain AdditionFn 2 RealNumber) | Merge.kif 4714-4714 | |
(domain AddressFn 1 ComputerFile) | QoSontology.kif 223-223 | |
(domain AfternoonFn 1 Day) | Merge.kif 8870-8870 | |
(domain AgreementOrganizationFn 1 Agreement) | Geography.kif 3056-3056 | |
(domain AlbumCopiesFn 1 Album) | Music.kif 930-930 | |
(domain AmountsFn 2 CorpuscularObject) | Merge.kif 7579-7579 | |
(domain AmountsFn 3 UnitOfMass) | Merge.kif 7580-7580 | |
(domain ArcCosineFn 1 RealNumber) | Merge.kif 5260-5260 | |
(domain ArcSineFn 1 RealNumber) | Merge.kif 5270-5270 | |
(domain ArcTangentFn 1 RealNumber) | Merge.kif 5250-5250 | |
(domain AssignmentFn 1 Function) | Merge.kif 786-786 | |
(domain AssignmentFn 2 Entity) | Merge.kif 787-787 | |
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