java.lang.Object
- org.optaplanner.core.impl.score.stream.drools.common.TriLeftHandSide<A,B,C>

Type Parameters:

A - generic type of the first resulting variable

B - generic type of the second resulting variable

C - generic type of the third resulting variable
```
public final class TriLeftHandSide<A,B,C>
extends Object
```
Represents the left hand side of a Drools rule, the result of which are three variables. For more, see UniLeftHandSide and BiLeftHandSide.

Field Summary

Fields
Modifier and Type Field Description

protected DroolsVariableFactory variableFactory

Constructor Summary

Constructors
Modifier	Constructor	Description
`protected`	`TriLeftHandSide(org.drools.model.Variable<A> variableA, org.drools.model.Variable<B> variableB, PatternVariable<C,?,?> patternVariableC, DroolsVariableFactory variableFactory)`
`protected`	`TriLeftHandSide(PatternVariable<A,?,?> patternVariableA, PatternVariable<B,?,?> patternVariableB, PatternVariable<C,?,?> patternVariableC, DroolsVariableFactory variableFactory)`

Method Summary

All Methods Static Methods Instance Methods Concrete Methods
Modifier and Type	Method	Description
`<D> TriLeftHandSide<A,B,C>`	`andExists(Class<D> dClass, QuadJoiner<A,B,C,D>[] joiners)`
`TriLeftHandSide<A,B,C>`	`andFilter(TriPredicate<A,B,C> predicate)`
`<NewC> TriLeftHandSide<A,B,NewC>`	`andFlattenLast(Function<C,Iterable<NewC>> mapping)`
`<NewA> UniLeftHandSide<NewA>`	`andGroupBy(TriFunction<A,B,C,NewA> keyMapping)`
`<NewA,NewB> BiLeftHandSide<NewA,NewB>`	`andGroupBy(TriFunction<A,B,C,NewA> keyMappingA, TriFunction<A,B,C,NewB> keyMappingB)`
`<NewA,NewB,NewC> TriLeftHandSide<NewA,NewB,NewC>`	`andGroupBy(TriFunction<A,B,C,NewA> keyMappingA, TriFunction<A,B,C,NewB> keyMappingB, TriFunction<A,B,C,NewC> keyMappingC)`
`<NewA,NewB,NewC,NewD> QuadLeftHandSide<NewA,NewB,NewC,NewD>`	`andGroupBy(TriFunction<A,B,C,NewA> keyMappingA, TriFunction<A,B,C,NewB> keyMappingB, TriFunction<A,B,C,NewC> keyMappingC, TriFunction<A,B,C,NewD> keyMappingD)`
`<NewA,NewB,NewC,NewD> QuadLeftHandSide<NewA,NewB,NewC,NewD>`	`andGroupBy(TriFunction<A,B,C,NewA> keyMappingA, TriFunction<A,B,C,NewB> keyMappingB, TriFunction<A,B,C,NewC> keyMappingC, TriConstraintCollector<A,B,C,?,NewD> collectorD)`
`<NewA,NewB,NewC> TriLeftHandSide<NewA,NewB,NewC>`	`andGroupBy(TriFunction<A,B,C,NewA> keyMappingA, TriFunction<A,B,C,NewB> keyMappingB, TriConstraintCollector<A,B,C,?,NewC> collectorC)`
`<NewA,NewB,NewC,NewD> QuadLeftHandSide<NewA,NewB,NewC,NewD>`	`andGroupBy(TriFunction<A,B,C,NewA> keyMappingA, TriFunction<A,B,C,NewB> keyMappingB, TriConstraintCollector<A,B,C,?,NewC> collectorC, TriConstraintCollector<A,B,C,?,NewD> collectorD)`
`<NewA,NewB> BiLeftHandSide<NewA,NewB>`	`andGroupBy(TriFunction<A,B,C,NewA> keyMappingA, TriConstraintCollector<A,B,C,?,NewB> collectorB)`
`<NewA,NewB,NewC> TriLeftHandSide<NewA,NewB,NewC>`	`andGroupBy(TriFunction<A,B,C,NewA> keyMappingA, TriConstraintCollector<A,B,C,?,NewB> collectorB, TriConstraintCollector<A,B,C,?,NewC> collectorC)`
`<NewA,NewB,NewC,NewD> QuadLeftHandSide<NewA,NewB,NewC,NewD>`	`andGroupBy(TriFunction<A,B,C,NewA> keyMappingA, TriConstraintCollector<A,B,C,?,NewB> collectorB, TriConstraintCollector<A,B,C,?,NewC> collectorC, TriConstraintCollector<A,B,C,?,NewD> collectorD)`
`<NewA> UniLeftHandSide<NewA>`	`andGroupBy(TriConstraintCollector<A,B,C,?,NewA> collector)`
`<NewA,NewB> BiLeftHandSide<NewA,NewB>`	`andGroupBy(TriConstraintCollector<A,B,C,?,NewA> collectorA, TriConstraintCollector<A,B,C,?,NewB> collectorB)`
`<NewA,NewB,NewC> TriLeftHandSide<NewA,NewB,NewC>`	`andGroupBy(TriConstraintCollector<A,B,C,?,NewA> collectorA, TriConstraintCollector<A,B,C,?,NewB> collectorB, TriConstraintCollector<A,B,C,?,NewC> collectorC)`
`<NewA,NewB,NewC,NewD> QuadLeftHandSide<NewA,NewB,NewC,NewD>`	`andGroupBy(TriConstraintCollector<A,B,C,?,NewA> collectorA, TriConstraintCollector<A,B,C,?,NewB> collectorB, TriConstraintCollector<A,B,C,?,NewC> collectorC, TriConstraintCollector<A,B,C,?,NewD> collectorD)`
`<D> QuadLeftHandSide<A,B,C,D>`	`andJoin(UniLeftHandSide<D> right, QuadJoiner<A,B,C,D> joiner)`
`<NewA> UniLeftHandSide<NewA>`	`andMap(TriFunction<A,B,C,NewA> mapping)`
`<D> TriLeftHandSide<A,B,C>`	`andNotExists(Class<D> dClass, QuadJoiner<A,B,C,D>[] joiners)`
`<Solution_> RuleBuilder<Solution_>`	`andTerminate()`
`<Solution_> RuleBuilder<Solution_>`	`andTerminate(ToIntTriFunction<A,B,C> matchWeighter)`
`<Solution_> RuleBuilder<Solution_>`	`andTerminate(ToLongTriFunction<A,B,C> matchWeighter)`
`<Solution_> RuleBuilder<Solution_>`	`andTerminate(TriFunction<A,B,C,BigDecimal> matchWeighter)`
`protected static org.drools.model.view.ViewItem<?>`	`buildAccumulate(org.drools.model.view.ViewItem<?> innerAccumulatePattern, org.drools.model.functions.accumulate.AccumulateFunction... accFunctions)`
`protected static <A,B> org.optaplanner.core.impl.score.stream.drools.common.IndirectPatternVariable<B,BiTuple<A,B>>`	`decompose(org.drools.model.Variable<BiTuple<A,B>> primaryVariable, org.drools.model.view.ViewItem<?> prerequisitePattern, org.drools.model.Variable<A> boundVarA, org.drools.model.Variable<B> boundVarB)`	Create an `IndirectPatternVariable` on `BiTuple` with pre-made bindings for its components variables.
`protected static <A,B,C,D> org.optaplanner.core.impl.score.stream.drools.common.IndirectPatternVariable<D,QuadTuple<A,B,C,D>>`	`decompose(org.drools.model.Variable<QuadTuple<A,B,C,D>> primaryVariable, org.drools.model.view.ViewItem<?> prerequisitePattern, org.drools.model.Variable<A> boundVarA, org.drools.model.Variable<B> boundVarB, org.drools.model.Variable<C> boundVarC, org.drools.model.Variable<D> boundVarD)`	Create an `IndirectPatternVariable` on `QuadTuple` with pre-made bindings for its components variables.
`protected static <A,B,C> org.optaplanner.core.impl.score.stream.drools.common.IndirectPatternVariable<C,TriTuple<A,B,C>>`	`decompose(org.drools.model.Variable<TriTuple<A,B,C>> primaryVariable, org.drools.model.view.ViewItem<?> prerequisitePattern, org.drools.model.Variable<A> boundVarA, org.drools.model.Variable<B> boundVarB, org.drools.model.Variable<C> boundVarC)`	Create an `IndirectPatternVariable` on `TriTuple` with pre-made bindings for its components variables.
`protected static <A,B,C> org.optaplanner.core.impl.score.stream.drools.common.DirectPatternVariable<C>`	`decomposeWithAccumulate(org.drools.model.Variable<BiTuple<A,B>> primaryVariable, org.drools.model.view.ViewItem<?> prerequisitePattern, org.drools.model.Variable<A> boundVarA, org.drools.model.Variable<B> boundVarB, org.drools.model.Variable<C> accumulateOutput)`	Create a `DirectPatternVariable` on `BiTuple` with pre-made bindings for its components variables and one accumulate output variable.
`protected static <A,B,C,D> org.optaplanner.core.impl.score.stream.drools.common.DirectPatternVariable<D>`	`decomposeWithAccumulate(org.drools.model.Variable<TriTuple<A,B,C>> primaryVariable, org.drools.model.view.ViewItem<?> prerequisitePattern, org.drools.model.Variable<A> boundVarA, org.drools.model.Variable<B> boundVarB, org.drools.model.Variable<C> boundVarC, org.drools.model.Variable<D> accumulateOutput)`	Create a `DirectPatternVariable` on `TriTuple` with pre-made bindings for its components variables and one accumulate output variable.
`protected static org.drools.model.Index.ConstraintType`	`getConstraintType(JoinerType type)`
`protected static org.drools.model.view.ViewItem<?>`	`joinViewItemsWithLogicalAnd(PatternVariable<?,?,?>... patternVariables)`
`protected static List<org.drools.model.view.ViewItem<?>>`	`mergeViewItems(PatternVariable<?,?,?>... patternVariables)`

Methods inherited from class java.lang.Object
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Field Detail

variableFactory

protected final DroolsVariableFactory variableFactory

Constructor Detail

TriLeftHandSide

protected TriLeftHandSide(org.drools.model.Variable<A> variableA,
                          org.drools.model.Variable<B> variableB,
                          PatternVariable<C,?,?> patternVariableC,
                          DroolsVariableFactory variableFactory)

TriLeftHandSide

protected TriLeftHandSide(PatternVariable<A,?,?> patternVariableA,
                          PatternVariable<B,?,?> patternVariableB,
                          PatternVariable<C,?,?> patternVariableC,
                          DroolsVariableFactory variableFactory)

Method Detail

andFilter

public TriLeftHandSide<A,B,C> andFilter(TriPredicate<A,B,C> predicate)

andExists

public <D> TriLeftHandSide<A,B,C> andExists(Class<D> dClass,
                                                        QuadJoiner<A,B,C,D>[] joiners)

andNotExists

public <D> TriLeftHandSide<A,B,C> andNotExists(Class<D> dClass,
                                                           QuadJoiner<A,B,C,D>[] joiners)

andJoin

public <D> QuadLeftHandSide<A,B,C,D> andJoin(UniLeftHandSide<D> right,
                                                               QuadJoiner<A,B,C,D> joiner)

andGroupBy

public <NewA> UniLeftHandSide<NewA> andGroupBy(TriConstraintCollector<A,B,C,?,NewA> collector)

andGroupBy

public <NewA,NewB> BiLeftHandSide<NewA,NewB> andGroupBy(TriConstraintCollector<A,B,C,?,NewA> collectorA,
                                                                    TriConstraintCollector<A,B,C,?,NewB> collectorB)

andGroupBy

public <NewA,NewB,NewC> TriLeftHandSide<NewA,NewB,NewC> andGroupBy(TriConstraintCollector<A,B,C,?,NewA> collectorA,
                                                                                           TriConstraintCollector<A,B,C,?,NewB> collectorB,
                                                                                           TriConstraintCollector<A,B,C,?,NewC> collectorC)

andGroupBy

public <NewA,NewB,NewC,NewD> QuadLeftHandSide<NewA,NewB,NewC,NewD> andGroupBy(TriConstraintCollector<A,B,C,?,NewA> collectorA,
                                                                                                                  TriConstraintCollector<A,B,C,?,NewB> collectorB,
                                                                                                                  TriConstraintCollector<A,B,C,?,NewC> collectorC,
                                                                                                                  TriConstraintCollector<A,B,C,?,NewD> collectorD)

andGroupBy

public <NewA> UniLeftHandSide<NewA> andGroupBy(TriFunction<A,B,C,NewA> keyMapping)

andGroupBy

public <NewA,NewB> BiLeftHandSide<NewA,NewB> andGroupBy(TriFunction<A,B,C,NewA> keyMappingA,
                                                                    TriConstraintCollector<A,B,C,?,NewB> collectorB)

andGroupBy

public <NewA,NewB,NewC> TriLeftHandSide<NewA,NewB,NewC> andGroupBy(TriFunction<A,B,C,NewA> keyMappingA,
                                                                                           TriConstraintCollector<A,B,C,?,NewB> collectorB,
                                                                                           TriConstraintCollector<A,B,C,?,NewC> collectorC)

andGroupBy

public <NewA,NewB,NewC,NewD> QuadLeftHandSide<NewA,NewB,NewC,NewD> andGroupBy(TriFunction<A,B,C,NewA> keyMappingA,
                                                                                                                  TriConstraintCollector<A,B,C,?,NewB> collectorB,
                                                                                                                  TriConstraintCollector<A,B,C,?,NewC> collectorC,
                                                                                                                  TriConstraintCollector<A,B,C,?,NewD> collectorD)

andGroupBy

public <NewA,NewB> BiLeftHandSide<NewA,NewB> andGroupBy(TriFunction<A,B,C,NewA> keyMappingA,
                                                                    TriFunction<A,B,C,NewB> keyMappingB)

andGroupBy

public <NewA,NewB,NewC> TriLeftHandSide<NewA,NewB,NewC> andGroupBy(TriFunction<A,B,C,NewA> keyMappingA,
                                                                                           TriFunction<A,B,C,NewB> keyMappingB,
                                                                                           TriConstraintCollector<A,B,C,?,NewC> collectorC)

andGroupBy

public <NewA,NewB,NewC,NewD> QuadLeftHandSide<NewA,NewB,NewC,NewD> andGroupBy(TriFunction<A,B,C,NewA> keyMappingA,
                                                                                                                  TriFunction<A,B,C,NewB> keyMappingB,
                                                                                                                  TriConstraintCollector<A,B,C,?,NewC> collectorC,
                                                                                                                  TriConstraintCollector<A,B,C,?,NewD> collectorD)

andGroupBy

public <NewA,NewB,NewC> TriLeftHandSide<NewA,NewB,NewC> andGroupBy(TriFunction<A,B,C,NewA> keyMappingA,
                                                                                           TriFunction<A,B,C,NewB> keyMappingB,
                                                                                           TriFunction<A,B,C,NewC> keyMappingC)

andGroupBy

public <NewA,NewB,NewC,NewD> QuadLeftHandSide<NewA,NewB,NewC,NewD> andGroupBy(TriFunction<A,B,C,NewA> keyMappingA,
                                                                                                                  TriFunction<A,B,C,NewB> keyMappingB,
                                                                                                                  TriFunction<A,B,C,NewC> keyMappingC,
                                                                                                                  TriConstraintCollector<A,B,C,?,NewD> collectorD)

andGroupBy

public <NewA,NewB,NewC,NewD> QuadLeftHandSide<NewA,NewB,NewC,NewD> andGroupBy(TriFunction<A,B,C,NewA> keyMappingA,
                                                                                                                  TriFunction<A,B,C,NewB> keyMappingB,
                                                                                                                  TriFunction<A,B,C,NewC> keyMappingC,
                                                                                                                  TriFunction<A,B,C,NewD> keyMappingD)

andMap

public <NewA> UniLeftHandSide<NewA> andMap(TriFunction<A,B,C,NewA> mapping)

andFlattenLast

public <NewC> TriLeftHandSide<A,B,NewC> andFlattenLast(Function<C,Iterable<NewC>> mapping)

andTerminate

public <Solution_> RuleBuilder<Solution_> andTerminate()

andTerminate

public <Solution_> RuleBuilder<Solution_> andTerminate(ToIntTriFunction<A,B,C> matchWeighter)

andTerminate

public <Solution_> RuleBuilder<Solution_> andTerminate(ToLongTriFunction<A,B,C> matchWeighter)

andTerminate

public <Solution_> RuleBuilder<Solution_> andTerminate(TriFunction<A,B,C,BigDecimal> matchWeighter)

getConstraintType

protected static org.drools.model.Index.ConstraintType getConstraintType(JoinerType type)

joinViewItemsWithLogicalAnd

protected static org.drools.model.view.ViewItem<?> joinViewItemsWithLogicalAnd(PatternVariable<?,?,?>... patternVariables)

mergeViewItems

protected static List<org.drools.model.view.ViewItem<?>> mergeViewItems(PatternVariable<?,?,?>... patternVariables)

decompose

protected static <A,B> org.optaplanner.core.impl.score.stream.drools.common.IndirectPatternVariable<B,BiTuple<A,B>> decompose(org.drools.model.Variable<BiTuple<A,B>> primaryVariable,
                                                                                                                                                org.drools.model.view.ViewItem<?> prerequisitePattern,
                                                                                                                                                org.drools.model.Variable<A> boundVarA,
                                                                                                                                                org.drools.model.Variable<B> boundVarB)

Create an IndirectPatternVariable on BiTuple with pre-made bindings for its components variables.

Type Parameters:: A - generic type of the first bound variable; B - generic type of the second bound variable
Parameters:: primaryVariable - never null; prerequisitePattern - never null, pattern required to construct the variable; boundVarA - never null, BiTuple.a; boundVarB - never null, BiTuple.b
Returns:: never null

decomposeWithAccumulate

protected static <A,B,C> org.optaplanner.core.impl.score.stream.drools.common.DirectPatternVariable<C> decomposeWithAccumulate(org.drools.model.Variable<BiTuple<A,B>> primaryVariable,
                                                                                                                                           org.drools.model.view.ViewItem<?> prerequisitePattern,
                                                                                                                                           org.drools.model.Variable<A> boundVarA,
                                                                                                                                           org.drools.model.Variable<B> boundVarB,
                                                                                                                                           org.drools.model.Variable<C> accumulateOutput)

Create a DirectPatternVariable on BiTuple with pre-made bindings for its components variables and one accumulate output variable.

Type Parameters:: A - generic type of the first bound variable; B - generic type of the second bound variable; C - generic type of the accumulate output variable
Parameters:: primaryVariable - never null; prerequisitePattern - never null, pattern required to construct the variable; boundVarA - never null, TriTuple.a; boundVarB - never null, TriTuple.b; accumulateOutput - never null, output of the accumulate function
Returns:: never null

decompose

protected static <A,B,C> org.optaplanner.core.impl.score.stream.drools.common.IndirectPatternVariable<C,TriTuple<A,B,C>> decompose(org.drools.model.Variable<TriTuple<A,B,C>> primaryVariable,
                                                                                                                                                                 org.drools.model.view.ViewItem<?> prerequisitePattern,
                                                                                                                                                                 org.drools.model.Variable<A> boundVarA,
                                                                                                                                                                 org.drools.model.Variable<B> boundVarB,
                                                                                                                                                                 org.drools.model.Variable<C> boundVarC)

Create an IndirectPatternVariable on TriTuple with pre-made bindings for its components variables.

Type Parameters:: A - generic type of the first bound variable; B - generic type of the second bound variable; C - generic type of the third bound variable
Parameters:: primaryVariable - never null; prerequisitePattern - never null, pattern required to construct the variable; boundVarA - never null, TriTuple.a; boundVarB - never null, TriTuple.b; boundVarC - never null, TriTuple.c
Returns:: never null

decompose

protected static <A,B,C,D> org.optaplanner.core.impl.score.stream.drools.common.IndirectPatternVariable<D,QuadTuple<A,B,C,D>> decompose(org.drools.model.Variable<QuadTuple<A,B,C,D>> primaryVariable,
                                                                                                                                                                                  org.drools.model.view.ViewItem<?> prerequisitePattern,
                                                                                                                                                                                  org.drools.model.Variable<A> boundVarA,
                                                                                                                                                                                  org.drools.model.Variable<B> boundVarB,
                                                                                                                                                                                  org.drools.model.Variable<C> boundVarC,
                                                                                                                                                                                  org.drools.model.Variable<D> boundVarD)

Create an IndirectPatternVariable on QuadTuple with pre-made bindings for its components variables.

Type Parameters:: A - generic type of the first bound variable; B - generic type of the second bound variable; C - generic type of the third bound variable; D - generic type of the fourth bound variable
Parameters:: primaryVariable - never null; prerequisitePattern - never null, pattern required to construct the variable; boundVarA - never null, QuadTuple.a; boundVarB - never null, QuadTuple.b; boundVarC - never null, QuadTuple.c; boundVarD - never null, QuadTuple.d
Returns:: never null

decomposeWithAccumulate

protected static <A,B,C,D> org.optaplanner.core.impl.score.stream.drools.common.DirectPatternVariable<D> decomposeWithAccumulate(org.drools.model.Variable<TriTuple<A,B,C>> primaryVariable,
                                                                                                                                                   org.drools.model.view.ViewItem<?> prerequisitePattern,
                                                                                                                                                   org.drools.model.Variable<A> boundVarA,
                                                                                                                                                   org.drools.model.Variable<B> boundVarB,
                                                                                                                                                   org.drools.model.Variable<C> boundVarC,
                                                                                                                                                   org.drools.model.Variable<D> accumulateOutput)

Create a DirectPatternVariable on TriTuple with pre-made bindings for its components variables and one accumulate output variable.

Type Parameters:: A - generic type of the first bound variable; B - generic type of the second bound variable; C - generic type of the third bound variable; D - generic type of the accumulate output variable
Parameters:: primaryVariable - never null; prerequisitePattern - never null, pattern required to construct the variable; boundVarA - never null, TriTuple.a; boundVarB - never null, TriTuple.b; boundVarC - never null, TriTuple.c; accumulateOutput - never null, output of the accumulate function
Returns:: never null

buildAccumulate

protected static org.drools.model.view.ViewItem<?> buildAccumulate(org.drools.model.view.ViewItem<?> innerAccumulatePattern,
                                                                   org.drools.model.functions.accumulate.AccumulateFunction... accFunctions)

Class TriLeftHandSide<A,​B,​C>

Field Summary

Constructor Summary

Method Summary

Methods inherited from class java.lang.Object

Field Detail

variableFactory

Constructor Detail

TriLeftHandSide

TriLeftHandSide

Method Detail

andFilter

andExists

andNotExists

andJoin

andGroupBy

andGroupBy

andGroupBy

andGroupBy

andGroupBy

andGroupBy

andGroupBy

andGroupBy

andGroupBy

andGroupBy

andGroupBy

andGroupBy

andGroupBy

andGroupBy

andMap

andFlattenLast

andTerminate

andTerminate

andTerminate

andTerminate

getConstraintType

joinViewItemsWithLogicalAnd

mergeViewItems

decompose

decomposeWithAccumulate

decompose

decompose

decomposeWithAccumulate

buildAccumulate

Class TriLeftHandSide<A,B,C>