SubtractionFn |
appearance as argument number 1 |
(documentation SubtractionFn ChineseLanguage "如果 ?NUMBER1 和 ?NUMBER2 是 Number,那么 (SubtractionFn ?NUMBER1 ?NUMBER2) 就是 ?NUMBER1 和 ?NUMBER2 的算术差,即使 ?NUMBER1 减 ?NUMBER2,除了在 ?NUMBER1 等于0时,那么(SubtractionFn ?NUMBER1 ?NUMBER2)就是 ?NUMBER2 的负数。") | chinese_format.kif 2216-2219 | |
(documentation SubtractionFn EnglishLanguage "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.") | Merge.kif 4730-4734 | |
(documentation SubtractionFn JapaneseLanguage "?NUMBER1 と ?NUMBER2 が Number の場合、 (SubtractionFn ?NUMBER1 ?NUMBER2) は ?NUMBER1 と ?NUMBER2 の算術差です。すなわち、?NUMBER1 マイナス ?NUMBER2。 例外は、?NUMBER1 が 0 に等しい場合に発生し、その場合 (SubtractionFn ?NUMBER1 ?NUMBER2) は ?NUMBER2の否定である。") | japanese_format.kif 880-883 | |
(domain SubtractionFn 1 RealNumber) | Merge.kif 4726-4726 | Die Zahl 1 Argument von SubtractionFn ist ein fall von RealNumber %n{nicht} |
(domain SubtractionFn 2 RealNumber) | Merge.kif 4727-4727 | Die Zahl 2 Argument von SubtractionFn ist ein fall von RealNumber %n{nicht} |
(identityElement SubtractionFn 0) | Merge.kif 5296-5296 | 0 ist ein identitaetsElement von SubtractionFn |
(instance SubtractionFn BinaryFunction) | Merge.kif 4723-4723 | SubtractionFn ist ein fall von BinaryFunction %n{nicht} |
(instance SubtractionFn TotalValuedRelation) | Merge.kif 4725-4725 | SubtractionFn ist ein fall von TotalValuedRelation %n{nicht} |
(range SubtractionFn RealNumber) | Merge.kif 4728-4728 | bildbereich von SubtractionFn ist ein fall von RealNumber {nicht} |
appearance as argument number 2 |
(format ChineseLanguage SubtractionFn "(%*[-])") | chinese_format.kif 684-684 | |
(format EnglishLanguage SubtractionFn "(%*[-])") | english_format.kif 686-686 | |
(format FrenchLanguage SubtractionFn "(%*[-])") | french_format.kif 415-415 | |
(format ItalianLanguage SubtractionFn "(%*[-]") | relations-it.txt 285-285 | |
(format JapaneseLanguage SubtractionFn "(%*[-])") | japanese_format.kif 2132-2132 | |
(format PortugueseLanguage SubtractionFn "(%*[-])") | portuguese_format.kif 367-367 | |
(format cz SubtractionFn "(%*[-])") | relations-cz.txt 424-424 | |
(format de SubtractionFn "(%*[-])") | relations-de.txt 891-891 | |
(format hi SubtractionFn "(%*[-]") | relations-hindi.txt 322-322 | |
(format ro SubtractionFn "(%*[-])") | relations-ro.kif 437-437 | |
(format sv SubtractionFn "(%*[-])") | relations-sv.txt 459-459 | |
(format tg SubtractionFn "(%*[-]") | relations-tg.txt 477-477 | |
(termFormat ChineseLanguage SubtractionFn "减法") | domainEnglishFormat.kif 55854-55854 | |
(termFormat ChineseLanguage SubtractionFn "减法函数") | chinese_format.kif 685-685 | |
(termFormat ChineseTraditionalLanguage SubtractionFn "減法") | domainEnglishFormat.kif 55853-55853 | |
(termFormat EnglishLanguage SubtractionFn "subtraction") | domainEnglishFormat.kif 55852-55852 |
antecedent |
consequent |
(<=> (and (equal (AbsoluteValueFn ?NUMBER1) ?NUMBER2) (instance ?NUMBER1 RealNumber) (instance ?NUMBER2 RealNumber)) (or (and (instance ?NUMBER1 NonnegativeRealNumber) (equal ?NUMBER1 ?NUMBER2)) (and (instance ?NUMBER1 NegativeRealNumber) (equal ?NUMBER2 (SubtractionFn 0.0 ?NUMBER1))))) |
Merge.kif 4768-4779 | Der absolutebetrag von RealNumber ist gleich NonnegativeRealNumber %n{nicht} und ** RealNumber ist ein fall von RealNumber %n{nicht} und ** NonnegativeRealNumber ist ein fall von RealNumber %n{nicht} genau dann wenn ** RealNumber ist ein fall von NonnegativeRealNumber %n{nicht} und ** RealNumber ist gleich ** NonnegativeRealNumber %n{nicht} oder ** RealNumber ist ein fall von NegativeRealNumber %n{nicht} und ** NonnegativeRealNumber ist gleich (0.0 und ** RealNumber) %n{nicht} |
(<=> (and (instance ?YEAR (YearFn ?Y)) (equal (MigrantsPerThousandFn ?AREA ?YEAR) ?REALNUMBER)) (and (equal (SubtractionFn ?Y ?PY) 1) (instance ?PREVIOUSYEAR (YearFn ?PY)) (holdsDuring ?YEAR (equal (PopulationFn ?AREA) ?POPULATION)) (equal (DivisionFn ?POPULATION 1000) ?THOUSANDS) (equal ?IMMIGRATION (CardinalityFn (KappaFn ?PERSON (and (instance ?PERSON Human) (holdsDuring ?PREVIOUSYEAR (not (inhabits ?PERSON ?AREA))) (holdsDuring ?YEAR (inhabits ?PERSON ?AREA)))))) (equal ?EMMIGRATION (CardinalityFn (KappaFn ?PERSON (and (instance ?PERSON Human) (holdsDuring ?PREVIOUSYEAR (inhabits ?PERSON ?AREA)) (holdsDuring ?YEAR (not (inhabits ?PERSON ?AREA))))))) (equal (SubtractionFn ?IMMIGRATION ?EMMIGRATION) ?MIGRATIONCOUNT) (equal (DivisionFn ?MIGRATIONCOUNT ?THOUSANDS) ?REALNUMBER))) |
People.kif 156-187 | Year ist ein fall von das jahr Integer %n{nicht} und MigrantsPerThousandFn GeopoliticalArea and ** Year ist gleich RealNumber %n{nicht} genau dann wenn (** Integer und ** Integer) ist gleich 1 %n{nicht} und Entity ist ein fall von das jahr ** ** Integer %n{nicht} und PopulationFn ** GeopoliticalArea ist gleich ** RealNumber %n{nicht} haelt waehrend ** Year %n{nicht} und ** ** RealNumber und 1000 ist gleich ** RealNumber %n{nicht} und ** Integer ist gleich die Zahl Faellen in die kategorie die SymbolicString beschreibt %n{nicht} und ** Integer ist gleich die Zahl Faellen in die kategorie die ** SymbolicString beschreibt %n{nicht} und (** ** Integer und ** ** Integer) ist gleich ** RealNumber %n{nicht} und ** ** RealNumber und ** ** RealNumber ist gleich ** RealNumber %n{nicht} |
(<=> (and (instance ?YEAR (YearFn ?Y)) (equal (PopulationGrowthFn ?AREA ?YEAR) ?ADJUSTEDPERCENT)) (and (equal (SubtractionFn ?Y ?YP) 1) (instance ?PREVIOUSYEAR (YearFn ?YP)) (holdsDuring ?YEAR (equal (PopulationFn ?AREA) ?POPULATION)) (holdsDuring ?PREVIOUSYEAR (equal (PopulationFn ?AREA) ?PREVIOUSPOPULATION)) (equal (DivisionFn ?POPULATION ?PREVIOUSPOPULATION) ?PERCENT) (equal (SubtractionFn ?PERCENT 1) ?ADJUSTEDPERCENT))) |
People.kif 52-64 | Year ist ein fall von das jahr Integer %n{nicht} und PopulationGrowthFn GeopoliticalArea and ** Year ist gleich RealNumber %n{nicht} genau dann wenn (** Integer und ** IntegerP) ist gleich 1 %n{nicht} und TimePosition ist ein fall von das jahr ** IntegerP %n{nicht} und PopulationFn ** GeopoliticalArea ist gleich ** RealNumber %n{nicht} haelt waehrend ** Year %n{nicht} und PopulationFn ** GeopoliticalArea ist gleich ** RealNumber %n{nicht} haelt waehrend ** TimePosition %n{nicht} und ** ** RealNumber und ** ** RealNumber ist gleich ** RealNumber %n{nicht} und (** ** RealNumber und 1) ist gleich ** RealNumber %n{nicht} |
(<=> (average ?LIST1 ?AVERAGE) (exists (?LIST2 ?LASTPLACE) (and (equal (ListLengthFn ?LIST2) (ListLengthFn ?LIST1)) (equal (ListOrderFn ?LIST2 1) (ListOrderFn ?LIST1 1)) (forall (?ITEMFROM2) (=> (inList ?ITEMFROM2 ?LIST2) (exists (?POSITION ?POSITIONMINUSONE ?ITEMFROM1 ?PRIORFROM2) (and (greaterThan ?POSITION 1) (lessThanOrEqualTo ?POSITION (ListLengthFn ?LIST2)) (equal (ListOrderFn ?LIST2 ?ITEMFROM2) ?POSITION) (inList ?ITEMFROM1 ?LIST1) (equal ?POSITION (ListOrderFn ?LIST1 ?ITEMFROM1)) (inList ?PRIORFROM2 ?LIST2) (equal ?POSITIONMINUSONE (SubtractionFn ?POSITION 1)) (equal ?POSITIONMINUSONE (ListOrderFn ?LIST2 ?PRIORFROM2)) (equal ?ITEMFROM2 (AdditionFn ?ITEMFROM1 ?PRIORFROM2)))))) (equal ?LASTPLACE (ListLengthFn ?LIST2)) (equal ?AVERAGE (DivisionFn (ListOrderFn ?LIST2 ?LASTPLACE) ?LASTPLACE))))) |
People.kif 272-293 | average List and RealNumber genau dann wenn es gibt ** List und PositiveInteger um Laenge von ** ** List ist gleich Laenge von ** List %n{nicht} und 1te mitglied von ** ** List ist gleich 1te mitglied von ** List %n{nicht} und fuer alle ** PositiveInteger
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(=> (and (equal ?VA (VarianceAverageFn ?M ?L)) (equal 1 (ListLengthFn ?L))) (equal ?VA (MultiplicationFn (SubtractionFn ?M (ListOrderFn ?L 1)) (SubtractionFn ?M (ListOrderFn ?L 1))))) |
Weather.kif 1486-1497 |
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(=> (and (instance ?D2 (DayFn ?N2 (MonthFn ?M (YearFn ?Y)))) (temporalPart ?D1 (WeekBeforeFn ?D2)) (temporalPart ?D2 (WeekAfterFn ?D1))) (exists (?N1) (and (instance ?D1 (DayFn ?N1 (MonthFn ?M (YearFn ?Y)))) (equal ?N1 (SubtractionFn ?N2 7))))) |
Mid-level-ontology.kif 14837-14846 |
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(=> (and (instance ?QUANTITY1 Quantity) (instance ?QUANTITY2 Quantity)) (equal (LiftFn ?QUANTITY1 ?QUANTITY2) (DivisionFn (SubtractionFn ?QUANTITY1 ?QUANTITY2) ?QUANTITY2))) |
UXExperimentalTerms.kif 4563-4571 |
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(=> (and (relativeAngle ?O1 ?O2 ?N) (physicalEnd ?E1 ?O1) (physicalEnd ?E2 ?O1) (not (equal ?E1 ?E2)) (length ?O1 (MeasureFn ?N1 ?U)) (length ?O2 (MeasureFn ?N2 ?U)) (distance ?E1 ?E3 (MeasureFn ?N3 ?U)) (physicalEnd ?E3 ?O2) (physicalEnd ?E4 ?O2) (not (equal ?E3 ?E4)) (not (meetsSpatially ?E1 ?E3))) (equal ?N (ArcCosineFn (DivisionFn (SubtractionFn (SubtractionFn (MultiplicationFn ?N3 ?N3) (MultiplicationFn ?N1 ?N1)) (MultiplicationFn ?N2 ?N2)) (MultiplicationFn 2.0 (MultiplicationFn ?N1 ?N2)))))) |
Merge.kif 17906-17931 |
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statement |
(equal (MeasureFn ?NUMBER CelsiusDegree) (MeasureFn (DivisionFn (SubtractionFn ?NUMBER 32.0) 1.8) FahrenheitDegree)) |
Merge.kif 7012-7014 | RealNumber CelsiusDegree(s) ist gleich (** RealNumber und 32.0) und 1.8 FahrenheitDegree(s) %n{nicht} |
(equal (MeasureFn ?NUMBER CelsiusDegree) (MeasureFn (SubtractionFn ?NUMBER 273.15) KelvinDegree)) |
Merge.kif 7008-7010 | RealNumber CelsiusDegree(s) ist gleich (** RealNumber und 273.15) KelvinDegree(s) %n{nicht} |
(equal (ReachingMilitaryAgeAnnuallyMaleFn ?AREA ?YEAR) (CardinalityFn (KappaFn ?PERSON (and (instance ?PERSON Human) (attribute ?PERSON Male) (militaryAge ?AREA ?MILITARYAGE) (equal ?AGEMINUSONE (SubtractionFn ?AGE 1)) (holdsDuring ?YEAR (or (age ?PERSON ?AGEMINUSONE) (age ?PERSON ?AGE))) (equal ?AGE ?MILITARYAGE) (inhabits ?PERSON ?AREA))))) |
Military.kif 933-946 | ReachingMilitaryAgeAnnuallyMaleFn GeopoliticalArea and Year ist gleich die Zahl Faellen in die kategorie die SymbolicString beschreibt %n{nicht} |
(forall (?NUMBER) (equal (PredecessorFn ?NUMBER) (SubtractionFn ?NUMBER 1))) |
Merge.kif 4736-4737 | Fuer alle Integer (** Integer+2) ist gleich (** Integer und 1) %n{nicht} |