Uses of Interface
org.optaplanner.core.api.score.stream.tri.TriConstraintStream
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Packages that use TriConstraintStream Package Description org.optaplanner.core.api.score.stream.bi TheConstraintStream
API for bi-tuples.org.optaplanner.core.api.score.stream.quad TheConstraintStream
API for four matched facts.org.optaplanner.core.api.score.stream.tri TheConstraintStream
API for tri-tuples.org.optaplanner.core.api.score.stream.uni TheConstraintStream
API for uni-tuples. -
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Uses of TriConstraintStream in org.optaplanner.core.api.score.stream.bi
Methods in org.optaplanner.core.api.score.stream.bi that return TriConstraintStream Modifier and Type Method Description <GroupKey_,ResultContainerB_,ResultB_,ResultContainerC_,ResultC_>
TriConstraintStream<GroupKey_,ResultB_,ResultC_>BiConstraintStream. groupBy(BiFunction<A,B,GroupKey_> groupKeyMapping, BiConstraintCollector<A,B,ResultContainerB_,ResultB_> collectorB, BiConstraintCollector<A,B,ResultContainerC_,ResultC_> collectorC)
Convert theBiConstraintStream
to aTriConstraintStream
, consisting of unique tuples with three facts.<GroupKeyA_,GroupKeyB_,GroupKeyC_>
TriConstraintStream<GroupKeyA_,GroupKeyB_,GroupKeyC_>BiConstraintStream. groupBy(BiFunction<A,B,GroupKeyA_> groupKeyAMapping, BiFunction<A,B,GroupKeyB_> groupKeyBMapping, BiFunction<A,B,GroupKeyC_> groupKeyCMapping)
Convert theBiConstraintStream
to aTriConstraintStream
, consisting of unique tuples with three facts.<GroupKeyA_,GroupKeyB_,ResultContainer_,Result_>
TriConstraintStream<GroupKeyA_,GroupKeyB_,Result_>BiConstraintStream. groupBy(BiFunction<A,B,GroupKeyA_> groupKeyAMapping, BiFunction<A,B,GroupKeyB_> groupKeyBMapping, BiConstraintCollector<A,B,ResultContainer_,Result_> collector)
Combines the semantics ofBiConstraintStream.groupBy(BiFunction, BiFunction)
andBiConstraintStream.groupBy(BiConstraintCollector)
.<ResultContainerA_,ResultA_,ResultContainerB_,ResultB_,ResultContainerC_,ResultC_>
TriConstraintStream<ResultA_,ResultB_,ResultC_>BiConstraintStream. groupBy(BiConstraintCollector<A,B,ResultContainerA_,ResultA_> collectorA, BiConstraintCollector<A,B,ResultContainerB_,ResultB_> collectorB, BiConstraintCollector<A,B,ResultContainerC_,ResultC_> collectorC)
Convert theBiConstraintStream
to aTriConstraintStream
, containing only a single tuple, the result of applying threeBiConstraintCollector
s.default <C> TriConstraintStream<A,B,C>
BiConstraintStream. join(Class<C> otherClass)
Create a newTriConstraintStream
for every combination of [A, B] and C.default <C> TriConstraintStream<A,B,C>
BiConstraintStream. join(Class<C> otherClass, TriJoiner<A,B,C> joiner)
Create a newTriConstraintStream
for every combination of [A, B] and C for which theTriJoiner
is true (for the properties it extracts from both facts).<C> TriConstraintStream<A,B,C>
BiConstraintStream. join(Class<C> otherClass, TriJoiner<A,B,C>... joiners)
As defined byBiConstraintStream.join(Class, TriJoiner)
.default <C> TriConstraintStream<A,B,C>
BiConstraintStream. join(Class<C> otherClass, TriJoiner<A,B,C> joiner1, TriJoiner<A,B,C> joiner2)
As defined byBiConstraintStream.join(Class, TriJoiner)
.default <C> TriConstraintStream<A,B,C>
BiConstraintStream. join(Class<C> otherClass, TriJoiner<A,B,C> joiner1, TriJoiner<A,B,C> joiner2, TriJoiner<A,B,C> joiner3)
As defined byBiConstraintStream.join(Class, TriJoiner)
.default <C> TriConstraintStream<A,B,C>
BiConstraintStream. join(Class<C> otherClass, TriJoiner<A,B,C> joiner1, TriJoiner<A,B,C> joiner2, TriJoiner<A,B,C> joiner3, TriJoiner<A,B,C> joiner4)
As defined byBiConstraintStream.join(Class, TriJoiner)
.default <C> TriConstraintStream<A,B,C>
BiConstraintStream. join(UniConstraintStream<C> otherStream)
Create a newTriConstraintStream
for every combination of [A, B] and C.default <C> TriConstraintStream<A,B,C>
BiConstraintStream. join(UniConstraintStream<C> otherStream, TriJoiner<A,B,C> joiner)
Create a newTriConstraintStream
for every combination of [A, B] and C for which theTriJoiner
is true (for the properties it extracts from both facts).<C> TriConstraintStream<A,B,C>
BiConstraintStream. join(UniConstraintStream<C> otherStream, TriJoiner<A,B,C>... joiners)
As defined byBiConstraintStream.join(Class, TriJoiner)
.default <C> TriConstraintStream<A,B,C>
BiConstraintStream. join(UniConstraintStream<C> otherStream, TriJoiner<A,B,C> joiner1, TriJoiner<A,B,C> joiner2)
As defined byBiConstraintStream.join(Class, TriJoiner)
.default <C> TriConstraintStream<A,B,C>
BiConstraintStream. join(UniConstraintStream<C> otherStream, TriJoiner<A,B,C> joiner1, TriJoiner<A,B,C> joiner2, TriJoiner<A,B,C> joiner3)
As defined byBiConstraintStream.join(Class, TriJoiner)
.default <C> TriConstraintStream<A,B,C>
BiConstraintStream. join(UniConstraintStream<C> otherStream, TriJoiner<A,B,C> joiner1, TriJoiner<A,B,C> joiner2, TriJoiner<A,B,C> joiner3, TriJoiner<A,B,C> joiner4)
As defined byBiConstraintStream.join(Class, TriJoiner)
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Uses of TriConstraintStream in org.optaplanner.core.api.score.stream.quad
Methods in org.optaplanner.core.api.score.stream.quad that return TriConstraintStream Modifier and Type Method Description <GroupKey_,ResultContainerB_,ResultB_,ResultContainerC_,ResultC_>
TriConstraintStream<GroupKey_,ResultB_,ResultC_>QuadConstraintStream. groupBy(QuadFunction<A,B,C,D,GroupKey_> groupKeyMapping, QuadConstraintCollector<A,B,C,D,ResultContainerB_,ResultB_> collectorB, QuadConstraintCollector<A,B,C,D,ResultContainerC_,ResultC_> collectorC)
Convert theQuadConstraintStream
to aTriConstraintStream
, consisting of unique tuples with three facts.<GroupKeyA_,GroupKeyB_,GroupKeyC_>
TriConstraintStream<GroupKeyA_,GroupKeyB_,GroupKeyC_>QuadConstraintStream. groupBy(QuadFunction<A,B,C,D,GroupKeyA_> groupKeyAMapping, QuadFunction<A,B,C,D,GroupKeyB_> groupKeyBMapping, QuadFunction<A,B,C,D,GroupKeyC_> groupKeyCMapping)
Convert theQuadConstraintStream
to aTriConstraintStream
, consisting of unique tuples with three facts.<GroupKeyA_,GroupKeyB_,ResultContainer_,Result_>
TriConstraintStream<GroupKeyA_,GroupKeyB_,Result_>QuadConstraintStream. groupBy(QuadFunction<A,B,C,D,GroupKeyA_> groupKeyAMapping, QuadFunction<A,B,C,D,GroupKeyB_> groupKeyBMapping, QuadConstraintCollector<A,B,C,D,ResultContainer_,Result_> collector)
Combines the semantics ofQuadConstraintStream.groupBy(QuadFunction, QuadFunction)
andQuadConstraintStream.groupBy(QuadConstraintCollector)
.<ResultContainerA_,ResultA_,ResultContainerB_,ResultB_,ResultContainerC_,ResultC_>
TriConstraintStream<ResultA_,ResultB_,ResultC_>QuadConstraintStream. groupBy(QuadConstraintCollector<A,B,C,D,ResultContainerA_,ResultA_> collectorA, QuadConstraintCollector<A,B,C,D,ResultContainerB_,ResultB_> collectorB, QuadConstraintCollector<A,B,C,D,ResultContainerC_,ResultC_> collectorC)
Convert theQuadConstraintStream
to aTriConstraintStream
, containing only a single tuple, the result of applying threeQuadConstraintCollector
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Uses of TriConstraintStream in org.optaplanner.core.api.score.stream.tri
Methods in org.optaplanner.core.api.score.stream.tri that return TriConstraintStream Modifier and Type Method Description TriConstraintStream<A,B,C>
TriConstraintStream. distinct()
TriConstraintStream<A,B,C>
TriConstraintStream. filter(TriPredicate<A,B,C> predicate)
Exhaustively test each tuple of facts against theTriPredicate
and match ifTriPredicate.test(Object, Object, Object)
returns true.<ResultC_> TriConstraintStream<A,B,ResultC_>
TriConstraintStream. flattenLast(Function<C,Iterable<ResultC_>> mapping)
As defined byBiConstraintStream.flattenLast(Function)
.<GroupKey_,ResultContainerB_,ResultB_,ResultContainerC_,ResultC_>
TriConstraintStream<GroupKey_,ResultB_,ResultC_>TriConstraintStream. groupBy(TriFunction<A,B,C,GroupKey_> groupKeyMapping, TriConstraintCollector<A,B,C,ResultContainerB_,ResultB_> collectorB, TriConstraintCollector<A,B,C,ResultContainerC_,ResultC_> collectorC)
Convert theTriConstraintStream
to aTriConstraintStream
, consisting of unique tuples with three facts.<GroupKeyA_,GroupKeyB_,GroupKeyC_>
TriConstraintStream<GroupKeyA_,GroupKeyB_,GroupKeyC_>TriConstraintStream. groupBy(TriFunction<A,B,C,GroupKeyA_> groupKeyAMapping, TriFunction<A,B,C,GroupKeyB_> groupKeyBMapping, TriFunction<A,B,C,GroupKeyC_> groupKeyCMapping)
Convert theTriConstraintStream
to aTriConstraintStream
, consisting of unique tuples with three facts.<GroupKeyA_,GroupKeyB_,ResultContainer_,Result_>
TriConstraintStream<GroupKeyA_,GroupKeyB_,Result_>TriConstraintStream. groupBy(TriFunction<A,B,C,GroupKeyA_> groupKeyAMapping, TriFunction<A,B,C,GroupKeyB_> groupKeyBMapping, TriConstraintCollector<A,B,C,ResultContainer_,Result_> collector)
Combines the semantics ofgroupBy(TriFunction, TriFunction)
andgroupBy(TriConstraintCollector)
.<ResultContainerA_,ResultA_,ResultContainerB_,ResultB_,ResultContainerC_,ResultC_>
TriConstraintStream<ResultA_,ResultB_,ResultC_>TriConstraintStream. groupBy(TriConstraintCollector<A,B,C,ResultContainerA_,ResultA_> collectorA, TriConstraintCollector<A,B,C,ResultContainerB_,ResultB_> collectorB, TriConstraintCollector<A,B,C,ResultContainerC_,ResultC_> collectorC)
Convert theTriConstraintStream
to aTriConstraintStream
, containing only a single tuple, the result of applying threeTriConstraintCollector
s.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifExists(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner)
Create a newBiConstraintStream
for every tuple of A, B and C where D exists for which theQuadJoiner
is true (for the properties it extracts from the facts).<D> TriConstraintStream<A,B,C>
TriConstraintStream. ifExists(Class<D> otherClass, QuadJoiner<A,B,C,D>... joiners)
As defined byifExists(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifExists(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2)
As defined byifExists(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifExists(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2, QuadJoiner<A,B,C,D> joiner3)
As defined byifExists(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifExists(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2, QuadJoiner<A,B,C,D> joiner3, QuadJoiner<A,B,C,D> joiner4)
As defined byifExists(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifExistsIncludingNullVars(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner)
Create a newBiConstraintStream
for every tuple of A, B and C where D exists for which theQuadJoiner
is true (for the properties it extracts from the facts).<D> TriConstraintStream<A,B,C>
TriConstraintStream. ifExistsIncludingNullVars(Class<D> otherClass, QuadJoiner<A,B,C,D>... joiners)
As defined byifExistsIncludingNullVars(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifExistsIncludingNullVars(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2)
As defined byifExistsIncludingNullVars(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifExistsIncludingNullVars(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2, QuadJoiner<A,B,C,D> joiner3)
As defined byifExistsIncludingNullVars(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifExistsIncludingNullVars(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2, QuadJoiner<A,B,C,D> joiner3, QuadJoiner<A,B,C,D> joiner4)
As defined byifExistsIncludingNullVars(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifNotExists(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner)
Create a newBiConstraintStream
for every tuple of A, B and C where D does not exist for which theQuadJoiner
is true (for the properties it extracts from the facts).<D> TriConstraintStream<A,B,C>
TriConstraintStream. ifNotExists(Class<D> otherClass, QuadJoiner<A,B,C,D>... joiners)
As defined byifNotExists(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifNotExists(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2)
As defined byifNotExists(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifNotExists(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2, QuadJoiner<A,B,C,D> joiner3)
As defined byifNotExists(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifNotExists(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2, QuadJoiner<A,B,C,D> joiner3, QuadJoiner<A,B,C,D> joiner4)
As defined byifNotExists(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifNotExistsIncludingNullVars(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner)
Create a newBiConstraintStream
for every tuple of A, B and C where D does not exist for which theQuadJoiner
is true (for the properties it extracts from the facts).<D> TriConstraintStream<A,B,C>
TriConstraintStream. ifNotExistsIncludingNullVars(Class<D> otherClass, QuadJoiner<A,B,C,D>... joiners)
As defined byifNotExistsIncludingNullVars(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifNotExistsIncludingNullVars(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2)
As defined byifNotExistsIncludingNullVars(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifNotExistsIncludingNullVars(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2, QuadJoiner<A,B,C,D> joiner3)
As defined byifNotExistsIncludingNullVars(Class, QuadJoiner)
.default <D> TriConstraintStream<A,B,C>
TriConstraintStream. ifNotExistsIncludingNullVars(Class<D> otherClass, QuadJoiner<A,B,C,D> joiner1, QuadJoiner<A,B,C,D> joiner2, QuadJoiner<A,B,C,D> joiner3, QuadJoiner<A,B,C,D> joiner4)
As defined byifNotExistsIncludingNullVars(Class, QuadJoiner)
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Uses of TriConstraintStream in org.optaplanner.core.api.score.stream.uni
Methods in org.optaplanner.core.api.score.stream.uni that return TriConstraintStream Modifier and Type Method Description <GroupKey_,ResultContainerB_,ResultB_,ResultContainerC_,ResultC_>
TriConstraintStream<GroupKey_,ResultB_,ResultC_>UniConstraintStream. groupBy(Function<A,GroupKey_> groupKeyMapping, UniConstraintCollector<A,ResultContainerB_,ResultB_> collectorB, UniConstraintCollector<A,ResultContainerC_,ResultC_> collectorC)
Convert theUniConstraintStream
to aTriConstraintStream
, consisting of unique tuples with three facts.<GroupKeyA_,GroupKeyB_,GroupKeyC_>
TriConstraintStream<GroupKeyA_,GroupKeyB_,GroupKeyC_>UniConstraintStream. groupBy(Function<A,GroupKeyA_> groupKeyAMapping, Function<A,GroupKeyB_> groupKeyBMapping, Function<A,GroupKeyC_> groupKeyCMapping)
Convert theUniConstraintStream
to aTriConstraintStream
, consisting of unique tuples with three facts.<GroupKeyA_,GroupKeyB_,ResultContainer_,Result_>
TriConstraintStream<GroupKeyA_,GroupKeyB_,Result_>UniConstraintStream. groupBy(Function<A,GroupKeyA_> groupKeyAMapping, Function<A,GroupKeyB_> groupKeyBMapping, UniConstraintCollector<A,ResultContainer_,Result_> collector)
Combines the semantics ofUniConstraintStream.groupBy(Function, Function)
andUniConstraintStream.groupBy(UniConstraintCollector)
.<ResultContainerA_,ResultA_,ResultContainerB_,ResultB_,ResultContainerC_,ResultC_>
TriConstraintStream<ResultA_,ResultB_,ResultC_>UniConstraintStream. groupBy(UniConstraintCollector<A,ResultContainerA_,ResultA_> collectorA, UniConstraintCollector<A,ResultContainerB_,ResultB_> collectorB, UniConstraintCollector<A,ResultContainerC_,ResultC_> collectorC)
Convert theUniConstraintStream
to aTriConstraintStream
, containing only a single tuple, the result of applying threeUniConstraintCollector
s.
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