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KB:
SUMO
Language:
ChineseLanguage
ChinesePinyinWriting
ChineseSimplifiedWriting
ChineseTraditionalLanguage
EnglishLanguage
FrenchLanguage
GermanLanguage
HerbaceousPlant
Hindi
ItalianLanguage
JapaneseLanguage
PortugueseLanguage
SpanishLanguage
SwedishLanguage
WoodyPlant
cb
cz
de
hi
ro
sv
tg
Formal Language:
OWL
SUO-KIF
TPTP
traditionalLogic
KB Term:
Term intersection
English Word:
Any
Noun
Verb
Adjective
Adverb
PredecessorFn
Sigma KEE - PredecessorFn
PredecessorFn
appearance as argument number 1
(
documentation
PredecessorFn
ChineseLanguage
"这是一个
UnaryFunction
,它把一个
Integer
和它 的前驱联系起来,例如:5的前驱是4。")
chinese_format.kif 2282-2283
(
documentation
PredecessorFn
EnglishLanguage
"A
UnaryFunction
that maps an
Integer
to its predecessor, e.g. the predecessor of 5 is 4.")
Merge.kif 5338-5339
(
documentation
PredecessorFn
JapaneseLanguage
"
UnaryFunction
は、
Integer
をその前身に マップする。 例:5の前身は4である。")
japanese_format.kif 950-951
(
domain
PredecessorFn
1
Integer
)
Merge.kif 5335-5335
The number 1 argument of
predecessor
is an
instance
of
integer
(
instance
PredecessorFn
TotalValuedRelation
)
Merge.kif 5334-5334
Predecessor
is an
instance
of
total valued relation
(
instance
PredecessorFn
UnaryFunction
)
Merge.kif 5333-5333
Predecessor
is an
instance
of
unary function
(
range
PredecessorFn
Integer
)
Merge.kif 5336-5336
The
range
of
predecessor
is an instance of
integer
appearance as argument number 2
(
format
ChineseLanguage
PredecessorFn
"(%1+2)")
chinese_format.kif 736-736
(
format
EnglishLanguage
PredecessorFn
"(%1+2)")
english_format.kif 738-738
(
format
FrenchLanguage
PredecessorFn
"(%1+2)")
french_format.kif 441-441
(
format
ItalianLanguage
PredecessorFn
"(%1+2")
relations-it.txt 227-227
(
format
JapaneseLanguage
PredecessorFn
"(%1+2)")
japanese_format.kif 2158-2158
(
format
PortugueseLanguage
PredecessorFn
"(%1+2)")
portuguese_format.kif 393-393
(
format
cz
PredecessorFn
"(%1+2)")
relations-cz.txt 454-454
(
format
de
PredecessorFn
"(%1+2)")
relations-de.txt 951-951
(
format
hi
PredecessorFn
"(%1+2")
relations-hindi.txt 265-265
(
format
ro
PredecessorFn
"(%1-1)")
relations-ro.kif 463-463
(
format
sv
PredecessorFn
"(%1+2)")
relations-sv.txt 504-504
(
format
tg
PredecessorFn
"(%1+2")
relations-tg.txt 419-419
(
termFormat
ChineseLanguage
PredecessorFn
"前任")
domainEnglishFormat.kif 47158-47158
(
termFormat
ChineseLanguage
PredecessorFn
"前继数函数")
chinese_format.kif 737-737
(
termFormat
ChineseTraditionalLanguage
PredecessorFn
"前任")
domainEnglishFormat.kif 47157-47157
(
termFormat
EnglishLanguage
PredecessorFn
"predecessor")
domainEnglishFormat.kif 47156-47156
antecedent
(=>
(
equal
(
PredecessorFn
?INT1)
(
PredecessorFn
?INT2))
(
equal
?INT1 ?INT2))
Merge.kif 5341-5343
If (
an integer
+2) is
equal
to (
another integer
+2),
then
the integer
is
equal
to
the other integer
consequent
(=>
(
instance
?INT
Integer
)
(
equal
?INT
(
PredecessorFn
(
SuccessorFn
?INT))))
Merge.kif 5329-5331
If
an integer
is an
instance
of
integer
,
then
the integer
is
equal
to ((
the integer
+1)+2)
(=>
(
instance
?INT
Integer
)
(
equal
?INT
(
SuccessorFn
(
PredecessorFn
?INT))))
Merge.kif 5325-5327
If
an integer
is an
instance
of
integer
,
then
the integer
is
equal
to ((
the integer
+2)+1)
(=>
(
instance
?INT
Integer
)
(
greaterThan
?INT
(
PredecessorFn
?INT)))
Merge.kif 5345-5347
If
an integer
is an
instance
of
integer
,
then
the integer
is
greater
than (
the integer
+2)
statement
(
forall
(?NUMBER)
(
equal
(
PredecessorFn
?NUMBER)
(
SubtractionFn
?NUMBER 1)))
Merge.kif 4737-4738
For all
an integer
(
the integer
+2) is
equal
to (
the integer
and 1)
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