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Sigma KEE - SubtractionFn
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 4634-4638
(domain SubtractionFn 1 RealNumber) Merge.kif 4630-4630 The number 1 argument of subtraction is an instance of real number
(domain SubtractionFn 2 RealNumber) Merge.kif 4631-4631 The number 2 argument of subtraction is an instance of real number
(identityElement SubtractionFn 0) Merge.kif 5196-5196 0 is an identity element of subtraction
(instance SubtractionFn BinaryFunction) Merge.kif 4627-4627 Subtraction is an instance of binary function
(instance SubtractionFn TotalValuedRelation) Merge.kif 4629-4629 Subtraction is an instance of total valued relation
(range SubtractionFn RealNumber) Merge.kif 4632-4632 The range of subtraction is an instance of real number

appearance as argument number 2
-------------------------


(format ChineseLanguage SubtractionFn "(%*[-])") chinese_format.kif 684-684
(format EnglishLanguage SubtractionFn "(%*[-])") english_format.kif 686-686
(termFormat ChineseLanguage SubtractionFn "减法") domainEnglishFormat.kif 55833-55833
(termFormat ChineseLanguage SubtractionFn "减法函数") chinese_format.kif 685-685
(termFormat ChineseTraditionalLanguage SubtractionFn "減法") domainEnglishFormat.kif 55832-55832
(termFormat EnglishLanguage SubtractionFn "subtraction") domainEnglishFormat.kif 55831-55831

antecedent
-------------------------


(=>
    (and
        (equal ?OUT
            (ReverseFn ?IN))
        (equal ?LEN
            (StringLengthFn ?IN))
        (greaterThan ?LEN 1)
        (greaterThan ?N 0)
        (lessThan ?N ?LEN)
        (equal ?PIVOT
            (CeilingFn
                (DivisionFn
                    (SubtractionFn ?LEN 1) 2)))
        (equal ?NEW
            (AdditionFn
                (SubtractionFn ?PIVOT ?N) ?PIVOT))
        (equal ?S
            (SubstringFn ?IN ?N
                (AdditionFn 1 ?N))))
    (equal ?S
        (SubstringFn ?OUT ?NEW
            (AdditionFn 1 ?NEW))))
Media.kif 3056-3077
(=>
    (and
        (equal ?R
            (SubListFn ?S ?E ?L))
        (equal
            (SubtractionFn ?E ?S) 0))
    (equal ?R NullList))
Merge.kif 3098-3105
(=>
    (and
        (equal ?R
            (SubListFn ?S ?E ?L))
        (equal
            (SubtractionFn ?E ?S) 1))
    (equal ?R
        (ListFn
            (ListOrderFn ?L ?S))))
Merge.kif 3107-3116
(=>
    (and
        (equal ?R
            (SubListFn ?S ?E ?L))
        (greaterThan
            (SubtractionFn ?E ?S) 1))
    (equal ?R
        (ListConcatenateFn
            (ListFn
                (ListOrderFn ?L ?S))
            (SubListFn
                (AdditionFn 1 ?S) ?E ?L))))
Merge.kif 3118-3130
(=>
    (and
        (holdsDuring ?T1
            (attribute ?F Menopausal))
        (equal ?BEFORE
            (SubtractionFn
                (YearDuration 1)
                (BeginFn ?T1)))
        (equal ?YBEFORE
            (TimeIntervalFn ?YBEFORE
                (BeginFn ?T1))))
    (not
        (exists (?M)
            (and
                (instance ?M Menstruation)
                (experiencer ?M ?F)))))
Mid-level-ontology.kif 23329-23343
(=>
    (and
        (instance ?DAY1
            (DayFn ?NUMBER1 ?MONTH))
        (instance ?DAY2
            (DayFn ?NUMBER2 ?MONTH))
        (equal
            (SubtractionFn ?NUMBER2 ?NUMBER1) 1))
    (meetsTemporally ?DAY1 ?DAY2))
Merge.kif 8505-8510
(=>
    (and
        (instance ?HOUR1
            (HourFn ?NUMBER1 ?DAY))
        (instance ?HOUR2
            (HourFn ?NUMBER2 ?DAY))
        (equal
            (SubtractionFn ?NUMBER2 ?NUMBER1) 1))
    (meetsTemporally ?HOUR1 ?HOUR2))
Merge.kif 8531-8536
(=>
    (and
        (instance ?MINUTE1
            (MinuteFn ?NUMBER1 ?HOUR))
        (instance ?MINUTE2
            (MinuteFn ?NUMBER2 ?HOUR))
        (equal
            (SubtractionFn ?NUMBER2 ?NUMBER1) 1))
    (meetsTemporally ?MINUTE1 ?MINUTE2))
Merge.kif 8558-8563
(=>
    (and
        (instance ?Payment Payment)
        (origin ?Payment
            (CurrencyFn ?Account))
        (instance ?Account FinancialAccount)
        (transactionAmount ?Payment
            (MeasureFn ?Amount ?CUNIT))
        (currentAccountBalance ?Account
            (ImmediatePastFn
                (WhenFn ?Payment))
            (MeasureFn ?Balance1 ?CUNIT))
        (equal ?Balance2
            (SubtractionFn ?Balance1 ?Amount)))
    (currentAccountBalance ?Account
        (ImmediateFutureFn
            (WhenFn ?Payment))
        (MeasureFn ?Balance2 ?CUNIT)))
FinancialOntology.kif 408-424
(=>
    (and
        (instance ?SECOND1
            (SecondFn ?NUMBER1 ?MINUTE))
        (instance ?SECOND2
            (SecondFn ?NUMBER2 ?MINUTE))
        (equal
            (SubtractionFn ?NUMBER2 ?NUMBER1) 1))
    (meetsTemporally ?SECOND1 ?SECOND2))
Merge.kif 8585-8590
(=>
    (and
        (instance ?Withdrawal Withdrawal)
        (instance ?Account FinancialAccount)
        (origin ?Withdrawal ?Account)
        (transactionAmount ?Withdrawal
            (MeasureFn ?Amount ?CUNIT))
        (currentAccountBalance ?Account
            (ImmediatePastFn
                (WhenFn ?Withdrawal))
            (MeasureFn ?Balance1 ?CUNIT))
        (equal ?Balance2
            (SubtractionFn ?Balance1 ?Amount)))
    (currentAccountBalance ?Account
        (ImmediateFutureFn
            (FutureFn ?Withdrawal))
        (MeasureFn ?Balance2 ?CUNIT)))
FinancialOntology.kif 466-481
(=>
    (and
        (instance ?Y1
            (YearFn ?N1))
        (instance ?Y2
            (YearFn ?N2))
        (equal
            (SubtractionFn ?N2 ?N1) 1))
    (meetsTemporally ?Y1 ?Y2))
Merge.kif 8650-8655
(=>
    (and
        (orientation ?OBJ ?REGION Outside)
        (instance ?ZONE
            (PerimeterAreaFn ?REGION))
        (instance ?ZONE UniformPerimeterArea)
        (width ?ZONE
            (MeasureFn ?LIMIT ?UNIT))
        (distance ?OBJ ?REGION
            (MeasureFn ?FAR ?UNIT))
        (instance ?UNIT UnitOfMeasure)
        (greaterThan
            (SubtractionFn ?FAR ?LIMIT) 0.0))
    (not
        (located ?OBJ ?ZONE)))
Geography.kif 870-879
(=>
    (and
        (orientation ?OBJ ?REGION Outside)
        (instance ?ZONE
            (PerimeterAreaFn ?REGION))
        (instance ?ZONE UniformPerimeterArea)
        (width ?ZONE
            (MeasureFn ?LIMIT ?UNIT))
        (distance ?OBJ ?REGION
            (MeasureFn ?FAR ?UNIT))
        (instance ?UNIT UnitOfMeasure)
        (lessThanOrEqualTo
            (SubtractionFn ?FAR ?LIMIT) 0.0))
    (located ?OBJ ?ZONE))
Geography.kif 859-868

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 4672-4683 The absolute value of a real number is equal to a nonnegative real number and the real number is an instance of real number and the nonnegative real number is an instance of real number if and only if the real number is an instance of nonnegative real number and the real number is equal to the nonnegative real number or the real number is an instance of negative real number and the nonnegative real number is equal to (0.0 and the real number)
(<=>
    (average ?LIST1 ?AVERAGE)
    (exists (?LIST2)
        (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 289-310 A real number is an average of a list if and only if there exists another list such that length of the other list is equal to length of the list and 1th element of the other list is equal to 1th element of the list and for all a positive integer and a fourth positive integer is equal to length of the other list and the real number is equal to the fourth positive integerth element of the other list and the fourth positive integer
(<=>
    (equal
        (MigrantsPerThousandFn ?AREA
            (YearFn ?YEAR)) ?REALNUMBER)
    (and
        (equal
            (SubtractionFn ?YEAR ?PREVIOUSYEAR) 1)
        (holdsDuring
            (YearFn ?YEAR)
            (equal
                (PopulationFn ?AREA) ?POPULATION))
        (equal
            (DivisionFn ?POPULATION 1000) ?THOUSANDS)
        (equal ?IMMIGRATION
            (CardinalityFn
                (KappaFn ?PERSON
                    (and
                        (instance ?PERSON Human)
                        (holdsDuring
                            (YearFn ?PREVIOUSYEAR)
                            (not
                                (inhabits ?PERSON ?AREA)))
                        (holdsDuring
                            (YearFn ?YEAR)
                            (inhabits ?PERSON ?AREA))))))
        (equal ?EMMIGRATION
            (CardinalityFn
                (KappaFn ?PERSON
                    (and
                        (instance ?PERSON Human)
                        (holdsDuring
                            (YearFn ?PREVIOUSYEAR)
                            (inhabits ?PERSON ?AREA))
                        (holdsDuring
                            (YearFn ?YEAR)
                            (not
                                (inhabits ?PERSON ?AREA)))))))
        (equal
            (SubtractionFn ?IMMIGRATION ?EMMIGRATION) ?MIGRATIONCOUNT)
        (equal
            (DivisionFn ?MIGRATIONCOUNT ?THOUSANDS) ?REALNUMBER)))
People.kif 178-206 The migrants per thousand of a geopolitical area and the year an integer is equal to a real number if and only if (the integer and another real number) is equal to 1 and the population of the geopolitical area is equal to a third real number holds during the year the integer and the third real number and 1000 is equal to a fourth real number and another integer is equal to the number of instances in the class described by a symbolic string and a third integer is equal to the number of instances in the class described by the symbolic string and (the other integer and the third integer) is equal to a fifth real number and the fifth real number and the fourth real number is equal to the real number
(<=>
    (equal
        (PopulationGrowthFn ?AREA
            (YearFn ?YEAR)) ?ADJUSTEDPERCENT)
    (exists (?Y1 ?Y2)
        (and
            (equal
                (SubtractionFn ?YEAR ?PREVIOUSYEAR) 1)
            (equal ?Y1
                (YearFn ?YEAR))
            (equal ?Y2
                (YearFn ?PREVIOUSYEAR))
            (holdsDuring ?Y1
                (equal
                    (PopulationFn ?AREA) ?POPULATION))
            (holdsDuring ?Y2
                (equal
                    (PopulationFn ?AREA) ?PREVIOUSPOPULATION))
            (equal
                (DivisionFn ?POPULATION ?PREVIOUSPOPULATION) ?PERCENT)
            (equal
                (SubtractionFn ?PERCENT 1) ?ADJUSTEDPERCENT))))
People.kif 78-90 The population growth of a geopolitical area and the year an integer is equal to a real number if and only if there exist a kind of year and another kind of year such that (the integer and another integer) is equal to 1 and a kind of year is equal to the year the integer and another kind of year is equal to the year the other integer and the population of the geopolitical area is equal to another real number holds during the kind of year and the population of the geopolitical area is equal to a third real number holds during the other kind of year and the other real number and the third real number is equal to a fourth real number and (the fourth real number and 1) is equal to the real number
(=>
    (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 1485-1496
(=>
    (and
        (equal ?WF
            (WeekBeforeFn
                (DayFn ?D
                    (MonthFn ?M
                        (YearFn ?Y)))))
        (equal ?WF
            (DayFn ?D2
                (MonthFn ?M
                    (YearFn ?Y)))))
    (equal ?D2
        (SubtractionFn ?D 7)))
Mid-level-ontology.kif 14278-14290
(=>
    (and
        (instance ?QUANTITY1 Quantity)
        (instance ?QUANTITY2 Quantity))
    (equal
        (LiftFn ?QUANTITY1 ?QUANTITY2)
        (DivisionFn
            (SubtractionFn ?QUANTITY1 ?QUANTITY2) ?QUANTITY2)))
UXExperimentalTerms.kif 4764-4772
(=>
    (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 17637-17662

statement
-------------------------


(equal
    (MeasureFn ?NUMBER CelsiusDegree)
    (MeasureFn
        (DivisionFn
            (SubtractionFn ?NUMBER 32.0) 1.8) FahrenheitDegree))
Merge.kif 6916-6918 A real number celsius degree(s) is equal to (the real number and 32.0) and 1.8 fahrenheit degree(s)
(equal
    (MeasureFn ?NUMBER CelsiusDegree)
    (MeasureFn
        (SubtractionFn ?NUMBER 273.15) KelvinDegree))
Merge.kif 6912-6914 A real number celsius degree(s) is equal to (the real number and 273.15) kelvin degree(s)
(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 The reaching military age annually male of a geopolitical area and a year is equal to the number of instances in the class described by a symbolic string
(forall (?NUMBER)
    (equal
        (PredecessorFn ?NUMBER)
        (SubtractionFn ?NUMBER 1)))
Merge.kif 4640-4641 For all an integer (the integer+2) is equal to (the integer and 1)


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