eu.lunisolar.magma.func.function.from

Interface LObjIntByteFunction<T,R>

All Superinterfaces:

Codomain<aType.a<R>>, Domain, Domain3<aType.a<T>,aType.aInt,aType.aByte>, Formattable, MetaFunction, MetaFunctionalInterface, MetaInterface, MetaInterface.NonThrowing, MetaInterface.Throwing<RuntimeException>

All Known Subinterfaces:

LObjIntByteFunction.LByteIntObjFunc<T,R>, LObjIntByteFunction.LByteObjIntFunc<T,R>, LObjIntByteFunction.LIntByteObjFunc<T,R>, LObjIntByteFunction.LIntObjByteFunc<T,R>, LObjIntByteFunction.LObjByteIntFunc<T,R>

All Known Implementing Classes:

LObjIntByteFunction.LObjIntByteFunctionSingle

@FunctionalInterface
public interface LObjIntByteFunction<T,R>
extends MetaFunction, MetaInterface.NonThrowing, Codomain<aType.a<R>>, Domain3<aType.a<T>,aType.aInt,aType.aByte>

Non-throwing functional interface (lambda) LObjIntByteFunction for Java 8.

Type: function

Domain (lvl: 3): T a1,int a2,byte a3

Co-domain: R

Nested Class Summary

Nested Classes

Modifier and Type	Interface and Description
static interface	LObjIntByteFunction.LByteIntObjFunc<T,R> Permutation of LObjIntByteFunction for method references.
static interface	LObjIntByteFunction.LByteObjIntFunc<T,R> Permutation of LObjIntByteFunction for method references.
static interface	LObjIntByteFunction.LIntByteObjFunc<T,R> Permutation of LObjIntByteFunction for method references.
static interface	LObjIntByteFunction.LIntObjByteFunc<T,R> Permutation of LObjIntByteFunction for method references.
static interface	LObjIntByteFunction.LObjByteIntFunc<T,R> Permutation of LObjIntByteFunction for method references.
static class	LObjIntByteFunction.LObjIntByteFunctionSingle<T,R>

Nested classes/interfaces inherited from interface eu.lunisolar.magma.basics.meta.MetaInterface

MetaInterface.NonThrowing, MetaInterface.Throwing<X>

Field Summary

Fields

Modifier and Type	Field and Description
static String	DESCRIPTION
static LSupplier<String>	NULL_VALUE_MESSAGE_SUPPLIER

Method Summary

Modifier and Type	Method and Description
default LObjIntByteFunction<T,R>	after(LConsumer<? super R> after)
default R	apply(T a1, int a2, byte a3)
default R	apply(T a1, int a2, byte a3, ExWF<RuntimeException> exF)
default R	apply(T a1, int a2, byte a3, ExWMF<RuntimeException> exF, String newMessage, Object... messageParams)
static <T,R> LObjIntByteFunction<T,R>	apply1st(LFunction<T,R> func) Captures single parameter function into this interface where only 1st parameter will be used.
static <T,R> LObjIntByteFunction<T,R>	apply2nd(LIntFunction<R> func) Captures single parameter function into this interface where only 2nd parameter will be used.
static <T,R> LObjIntByteFunction<T,R>	apply3rd(LByteFunction<R> func) Captures single parameter function into this interface where only 3rd parameter will be used.
default R	applyThen(T a1, int a2, byte a3, LFunction<Throwable,R> handler)
R	applyX(T a1, int a2, byte a3) Implement this, but call apply(T a1,int a2,byte a3)
default LObjIntByteFunction<T,R>	before(LTieByteConsumer<? super T> before)
static <T,R> LObjIntByteFunction.LByteIntObjFunc<T,R>	byteIntObjFunc(LObjIntByteFunction.LByteIntObjFunc<T,R> lambda) Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).
static <T,R> LObjIntByteFunction.LByteObjIntFunc<T,R>	byteObjIntFunc(LObjIntByteFunction.LByteObjIntFunc<T,R> lambda) Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).
static <T,R> R	call(T a1, int a2, byte a3, LObjIntByteFunction<T,R> lambda)
default LSupplier<R>	capture(T a1, int a2, byte a3) Captures arguments but delays the evaluation.
default <V2,V3> LObjIntByteFunction<V2,V3>	cast() Cast that replace generics.
static <V2,V3,T,R> LObjIntByteFunction<V2,V3>	cast(LObjIntByteFunction<T,R> function) Cast that replace generics.
default <V1> LObjIntByteFunction<V1,R>	compose(LFunction<? super V1,? extends T> before1, LIntUnaryOperator before2, LByteUnaryOperator before3) Allows to manipulate the domain of the function.
static <V1,T,R> LObjIntByteFunction<V1,R>	composed(LFunction<? super V1,? extends T> before1, LIntUnaryOperator before2, LByteUnaryOperator before3, LObjIntByteFunction<T,R> after)
static <V1,V2,V3,T,R> LTriFunction<V1,V2,V3,R>	composed(LFunction<? super V1,? extends T> before1, LToIntFunction<? super V2> before2, LToByteFunction<? super V3> before3, LObjIntByteFunction<T,R> after)
static <T,R> LObjIntByteFunction<T,R>	constant(R r) Creates function that always returns the same value.
static <T,R> LObjIntByteFunction<T,R>	failSafe(LObjIntByteFunction<T,R> func, LObjIntByteFunction<T,R> failSafe)
default R	failSafeApply(T a1, int a2, byte a3, LObjIntByteFunction<T,R> failSafe)
static <T,R> R	failSafeApply(T a1, int a2, byte a3, LObjIntByteFunction<T,R> func, LObjIntByteFunction<T,R> failSafe)
default <C1,C2,C3> void	forEach(IndexedRead<C1,aType.a<T>> ia1, C1 source1, IndexedRead<C2,aType.aInt> ia2, C2 source2, IndexedRead<C3,aType.aByte> ia3, C3 source3, LConsumer<? super R> consumer) For each element (or tuple) from arguments, calls the function and passes the result to consumer.
static <T,R> void	fromTill(int min_a2, int max_a2, T a1, byte a3, LObjIntByteFunction<T,R> func) From-To.
static <T,R> void	fromTo(int min_a2, int max_a2, T a1, byte a3, LObjIntByteFunction<T,R> func) From-To.
default String	functionalInterfaceDescription() Returns description of the functional interface.
default LObjIntByteFunction<T,R>	handling(HandlingInstructions<Throwable,RuntimeException> handling)
default R	handlingApply(T a1, int a2, byte a3, HandlingInstructions<Throwable,RuntimeException> handling) Function call that handles exceptions according to the instructions.
static <T,R> R	handlingApply(T a1, int a2, byte a3, LObjIntByteFunction<T,R> func, HandlingInstructions<Throwable,RuntimeException> handling)
static <T,R> LObjIntByteFunction.LIntByteObjFunc<T,R>	intByteObjFunc(LObjIntByteFunction.LIntByteObjFunc<T,R> lambda) Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).
static <T,R> LObjIntByteFunction.LIntObjByteFunc<T,R>	intObjByteFunc(LObjIntByteFunction.LIntObjByteFunc<T,R> lambda) Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).
default <C1,C2,C3,I3> void	iterate(IndexedRead<C1,aType.a<T>> ia1, C1 source1, IndexedRead<C2,aType.aInt> ia2, C2 source2, SequentialRead<C3,I3,aType.aByte> sa3, C3 source3, LConsumer<? super R> consumer) For each element (or tuple) from arguments, calls the function and passes the result to consumer.
default <C1,C2,I2,C3> void	iterate(IndexedRead<C1,aType.a<T>> ia1, C1 source1, SequentialRead<C2,I2,aType.aInt> sa2, C2 source2, IndexedRead<C3,aType.aByte> ia3, C3 source3, LConsumer<? super R> consumer) For each element (or tuple) from arguments, calls the function and passes the result to consumer.
default <C1,C2,I2,C3,I3> void	iterate(IndexedRead<C1,aType.a<T>> ia1, C1 source1, SequentialRead<C2,I2,aType.aInt> sa2, C2 source2, SequentialRead<C3,I3,aType.aByte> sa3, C3 source3, LConsumer<? super R> consumer) For each element (or tuple) from arguments, calls the function and passes the result to consumer.
default <C1,I1,C2,C3> void	iterate(SequentialRead<C1,I1,aType.a<T>> sa1, C1 source1, IndexedRead<C2,aType.aInt> ia2, C2 source2, IndexedRead<C3,aType.aByte> ia3, C3 source3, LConsumer<? super R> consumer) For each element (or tuple) from arguments, calls the function and passes the result to consumer.
default <C1,I1,C2,C3,I3> void	iterate(SequentialRead<C1,I1,aType.a<T>> sa1, C1 source1, IndexedRead<C2,aType.aInt> ia2, C2 source2, SequentialRead<C3,I3,aType.aByte> sa3, C3 source3, LConsumer<? super R> consumer) For each element (or tuple) from arguments, calls the function and passes the result to consumer.
default <C1,I1,C2,I2,C3> void	iterate(SequentialRead<C1,I1,aType.a<T>> sa1, C1 source1, SequentialRead<C2,I2,aType.aInt> sa2, C2 source2, IndexedRead<C3,aType.aByte> ia3, C3 source3, LConsumer<? super R> consumer) For each element (or tuple) from arguments, calls the function and passes the result to consumer.
default <C1,I1,C2,I2,C3,I3> void	iterate(SequentialRead<C1,I1,aType.a<T>> sa1, C1 source1, SequentialRead<C2,I2,aType.aInt> sa2, C2 source2, SequentialRead<C3,I3,aType.aByte> sa3, C3 source3, LConsumer<? super R> consumer) For each element (or tuple) from arguments, calls the function and passes the result to consumer.
default R	nestingApply(T a1, int a2, byte a3) Function call that handles exceptions by always nesting checked exceptions and propagating the others as is.
default LObjIntByteFunction<T,R>	nonNullable() Converts to function that makes sure that the result is not null.
default R	nonNullApply(T a1, int a2, byte a3) Function call that ensures the result is not null
static <T,R> LObjIntByteFunction.LObjByteIntFunc<T,R>	objByteIntFunc(LObjIntByteFunction.LObjByteIntFunc<T,R> lambda) Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).
static <T,R> LObjIntByteFunction<T,R>	objIntByteFunc(LObjIntByteFunction<T,R> lambda) Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).
default <V1,V2,V3> LTriFunction<V1,V2,V3,R>	objIntByteFuncCompose(LFunction<? super V1,? extends T> before1, LToIntFunction<? super V2> before2, LToByteFunction<? super V3> before3) Allows to manipulate the domain of the function.
static <T,R> LObjIntByteFunction<T,R>	objIntByteFuncThrowing(ExF<Throwable> exF)
static <T,R> LObjIntByteFunction<T,R>	objIntByteFuncThrowing(String message, ExMF<Throwable> exF)
static <T,R> R	produce(byte a3, int a2, T a1) Does nothing (LObjIntByteFunction.LByteIntObjFunc) Function
static <T,R> R	produce(byte a3, T a1, int a2) Does nothing (LObjIntByteFunction.LByteObjIntFunc) Function
static <T,R> R	produce(int a2, byte a3, T a1) Does nothing (LObjIntByteFunction.LIntByteObjFunc) Function
static <T,R> R	produce(int a2, T a1, byte a3) Does nothing (LObjIntByteFunction.LIntObjByteFunc) Function
static <T,R> R	produce(T a1, byte a3, int a2) Does nothing (LObjIntByteFunction.LObjByteIntFunc) Function
static <T,R> R	produce(T a1, int a2, byte a3) Does nothing (LObjIntByteFunction) Function
static <T,R> LObjIntByteFunction<T,R>	recursive(LFunction<LObjIntByteFunction<T,R>,LObjIntByteFunction<T,R>> selfLambda)
static <T,R> LObjIntByteFunction<T,R>	safe() Safe instance.
static <T,R> LObjIntByteFunction<T,R>	safe(LObjIntByteFunction<T,R> other) Safe wrapping.
static <T,R> LSupplier<LObjIntByteFunction<T,R>>	safeSupplier() Safe instance supplier.
static <T,R> LSupplier<LObjIntByteFunction<T,R>>	safeSupplier(LSupplier<LObjIntByteFunction<T,R>> supplier) Safe supplier.
default R	shovingApply(T a1, int a2, byte a3) Function call that handles exceptions by always propagating them as is, even when they are undeclared checked ones.
default <V> LObjIntByteFunction<T,V>	then(LFunction<? super R,? extends V> after) Combines two functions together in a order.
default LTieByteConsumer<T>	thenConsume(LConsumer<? super R> after) Combines two functions together in a order.
default LObjIntBytePredicate<T>	thenToBool(LPredicate<? super R> after) Combines two functions together in a order.
default LTieByteFunction<T>	thenToInt(LToIntFunction<? super R> after) Combines two functions together in a order.
static <T,R> void	times(int max_a2, T a1, byte a3, LObjIntByteFunction<T,R> func) From-To.
static <T,R> R	tryApply(T a1, int a2, byte a3, LObjIntByteFunction<T,R> func)
static <T,R> R	tryApply(T a1, int a2, byte a3, LObjIntByteFunction<T,R> func, ExWF<RuntimeException> exF)
static <T,R> R	tryApply(T a1, int a2, byte a3, LObjIntByteFunction<T,R> func, ExWMF<RuntimeException> exF, String newMessage, Object... messageParams)
static <T,R> R	tryApplyThen(T a1, int a2, byte a3, LObjIntByteFunction<T,R> func, LFunction<Throwable,R> handler)
default LObjIntByteFunction<T,R>	trying(ExWF<RuntimeException> exF)
default LObjIntByteFunction<T,R>	trying(ExWMF<RuntimeException> exF, String newMessage, Object... messageParams)
default LObjIntByteFunction<T,R>	tryingThen(LFunction<Throwable,R> handler)
default R	tupleApply(LObjIntByteTriple<T> args)
static <T,R> LObjIntByteFunction<T,R>	uncurry(LFunction<T,LIntFunction<LByteFunction<R>>> func)
default LObjIntByteFunction	untyped() Cast that removes generics.

Methods inherited from interface eu.lunisolar.magma.basics.meta.functional.type.MetaFunction

isFunction

Methods inherited from interface eu.lunisolar.magma.basics.meta.functional.MetaFunctionalInterface

formatTo, isAction, isConsumer, isOperator, isPredicate, isSupplier

Methods inherited from interface eu.lunisolar.magma.basics.meta.MetaInterface.NonThrowing

isThrowing

Field Detail

DESCRIPTION

static final String DESCRIPTION

See Also:

Constant Field Values

NULL_VALUE_MESSAGE_SUPPLIER

static final LSupplier<String> NULL_VALUE_MESSAGE_SUPPLIER

Method Detail

apply

@Nullable
default R apply(T a1,
                           int a2,
                           byte a3)

applyX

R applyX(T a1,
         int a2,
         byte a3)
  throws Throwable

Implement this, but call apply(T a1,int a2,byte a3)

Throws:

Throwable

tupleApply

default R tupleApply(LObjIntByteTriple<T> args)

handlingApply

default R handlingApply(T a1,
                        int a2,
                        byte a3,
                        HandlingInstructions<Throwable,RuntimeException> handling)

Function call that handles exceptions according to the instructions.

handling

default LObjIntByteFunction<T,R> handling(HandlingInstructions<Throwable,RuntimeException> handling)

apply

default R apply(T a1,
                int a2,
                byte a3,
                @Nonnull
                ExWMF<RuntimeException> exF,
                @Nonnull
                String newMessage,
                @Nullable
                Object... messageParams)

trying

default LObjIntByteFunction<T,R> trying(@Nonnull
                                        ExWMF<RuntimeException> exF,
                                        @Nonnull
                                        String newMessage,
                                        @Nullable
                                        Object... messageParams)

apply

default R apply(T a1,
                int a2,
                byte a3,
                @Nonnull
                ExWF<RuntimeException> exF)

trying

default LObjIntByteFunction<T,R> trying(@Nonnull
                                        ExWF<RuntimeException> exF)

applyThen

default R applyThen(T a1,
                    int a2,
                    byte a3,
                    @Nonnull
                    LFunction<Throwable,R> handler)

tryingThen

default LObjIntByteFunction<T,R> tryingThen(@Nonnull
                                            LFunction<Throwable,R> handler)

nestingApply

default R nestingApply(T a1,
                       int a2,
                       byte a3)

Function call that handles exceptions by always nesting checked exceptions and propagating the others as is.

shovingApply

default R shovingApply(T a1,
                       int a2,
                       byte a3)

Function call that handles exceptions by always propagating them as is, even when they are undeclared checked ones.

handlingApply

static <T,R> R handlingApply(T a1,
                             int a2,
                             byte a3,
                             LObjIntByteFunction<T,R> func,
                             HandlingInstructions<Throwable,RuntimeException> handling)

tryApply

static <T,R> R tryApply(T a1,
                        int a2,
                        byte a3,
                        LObjIntByteFunction<T,R> func)

tryApply

static <T,R> R tryApply(T a1,
                        int a2,
                        byte a3,
                        LObjIntByteFunction<T,R> func,
                        @Nonnull
                        ExWMF<RuntimeException> exF,
                        @Nonnull
                        String newMessage,
                        @Nullable
                        Object... messageParams)

tryApply

static <T,R> R tryApply(T a1,
                        int a2,
                        byte a3,
                        LObjIntByteFunction<T,R> func,
                        @Nonnull
                        ExWF<RuntimeException> exF)

tryApplyThen

static <T,R> R tryApplyThen(T a1,
                            int a2,
                            byte a3,
                            LObjIntByteFunction<T,R> func,
                            @Nonnull
                            LFunction<Throwable,R> handler)

failSafeApply

default R failSafeApply(T a1,
                        int a2,
                        byte a3,
                        @Nonnull
                        LObjIntByteFunction<T,R> failSafe)

failSafeApply

static <T,R> R failSafeApply(T a1,
                             int a2,
                             byte a3,
                             LObjIntByteFunction<T,R> func,
                             @Nonnull
                             LObjIntByteFunction<T,R> failSafe)

failSafe

static <T,R> LObjIntByteFunction<T,R> failSafe(LObjIntByteFunction<T,R> func,
                                               @Nonnull
                                               LObjIntByteFunction<T,R> failSafe)

nonNullApply

@Nonnull
default R nonNullApply(T a1,
                                 int a2,
                                 byte a3)

Function call that ensures the result is not null

functionalInterfaceDescription

@Nonnull
default String functionalInterfaceDescription()

Returns description of the functional interface.

Specified by:

functionalInterfaceDescription in interface MetaFunctionalInterface

fromTo

static <T,R> void fromTo(int min_a2,
                         int max_a2,
                         T a1,
                         byte a3,
                         LObjIntByteFunction<T,R> func)

From-To. Intended to be used with non-capturing lambda.

fromTill

static <T,R> void fromTill(int min_a2,
                           int max_a2,
                           T a1,
                           byte a3,
                           LObjIntByteFunction<T,R> func)

From-To. Intended to be used with non-capturing lambda.

times

static <T,R> void times(int max_a2,
                        T a1,
                        byte a3,
                        LObjIntByteFunction<T,R> func)

From-To. Intended to be used with non-capturing lambda.

uncurry

static <T,R> LObjIntByteFunction<T,R> uncurry(LFunction<T,LIntFunction<LByteFunction<R>>> func)

untyped

default LObjIntByteFunction untyped()

Cast that removes generics.

cast

default <V2,V3> LObjIntByteFunction<V2,V3> cast()

Cast that replace generics.

cast

static <V2,V3,T,R> LObjIntByteFunction<V2,V3> cast(LObjIntByteFunction<T,R> function)

Cast that replace generics.

capture

default LSupplier<R> capture(T a1,
                             int a2,
                             byte a3)

Captures arguments but delays the evaluation.

constant

static <T,R> LObjIntByteFunction<T,R> constant(R r)

Creates function that always returns the same value.

apply1st

@Nonnull
static <T,R> LObjIntByteFunction<T,R> apply1st(@Nonnull
                                                         LFunction<T,R> func)

Captures single parameter function into this interface where only 1st parameter will be used.

apply2nd

@Nonnull
static <T,R> LObjIntByteFunction<T,R> apply2nd(@Nonnull
                                                         LIntFunction<R> func)

Captures single parameter function into this interface where only 2nd parameter will be used.

apply3rd

@Nonnull
static <T,R> LObjIntByteFunction<T,R> apply3rd(@Nonnull
                                                         LByteFunction<R> func)

Captures single parameter function into this interface where only 3rd parameter will be used.

objIntByteFunc

@Nonnull
static <T,R> LObjIntByteFunction<T,R> objIntByteFunc(@Nonnull
                                                               LObjIntByteFunction<T,R> lambda)

Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).

recursive

@Nonnull
static <T,R> LObjIntByteFunction<T,R> recursive(@Nonnull
                                                          LFunction<LObjIntByteFunction<T,R>,LObjIntByteFunction<T,R>> selfLambda)

objIntByteFuncThrowing

@Nonnull
static <T,R> LObjIntByteFunction<T,R> objIntByteFuncThrowing(@Nonnull
                                                                       ExF<Throwable> exF)

objIntByteFuncThrowing

@Nonnull
static <T,R> LObjIntByteFunction<T,R> objIntByteFuncThrowing(String message,
                                                                       @Nonnull
                                                                       ExMF<Throwable> exF)

objByteIntFunc

@Nonnull
static <T,R> LObjIntByteFunction.LObjByteIntFunc<T,R> objByteIntFunc(@Nonnull
                                                                               LObjIntByteFunction.LObjByteIntFunc<T,R> lambda)

Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).

intObjByteFunc

@Nonnull
static <T,R> LObjIntByteFunction.LIntObjByteFunc<T,R> intObjByteFunc(@Nonnull
                                                                               LObjIntByteFunction.LIntObjByteFunc<T,R> lambda)

Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).

intByteObjFunc

@Nonnull
static <T,R> LObjIntByteFunction.LIntByteObjFunc<T,R> intByteObjFunc(@Nonnull
                                                                               LObjIntByteFunction.LIntByteObjFunc<T,R> lambda)

Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).

byteObjIntFunc

@Nonnull
static <T,R> LObjIntByteFunction.LByteObjIntFunc<T,R> byteObjIntFunc(@Nonnull
                                                                               LObjIntByteFunction.LByteObjIntFunc<T,R> lambda)

Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).

byteIntObjFunc

@Nonnull
static <T,R> LObjIntByteFunction.LByteIntObjFunc<T,R> byteIntObjFunc(@Nonnull
                                                                               LObjIntByteFunction.LByteIntObjFunc<T,R> lambda)

Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).

call

static <T,R> R call(T a1,
                    int a2,
                    byte a3,
                    @Nonnull
                    LObjIntByteFunction<T,R> lambda)

safe

@Nonnull
static <T,R> LObjIntByteFunction<T,R> safe()

Safe instance. That always returns the same value (as produce).

safeSupplier

@Nonnull
static <T,R> LSupplier<LObjIntByteFunction<T,R>> safeSupplier()

Safe instance supplier. Returns supplier of safe() instance.

safe

@Nonnull
static <T,R> LObjIntByteFunction<T,R> safe(@Nullable
                                                     LObjIntByteFunction<T,R> other)

Safe wrapping. Either argument function is returned (if it is not null) or safe() instance.

safeSupplier

@Nonnull
static <T,R> LSupplier<LObjIntByteFunction<T,R>> safeSupplier(@Nullable
                                                                        LSupplier<LObjIntByteFunction<T,R>> supplier)

Safe supplier. Either argument supplier is returned (if it is not null) or supplier of safe() instance.

compose

@Nonnull
default <V1> LObjIntByteFunction<V1,R> compose(@Nonnull
                                                         LFunction<? super V1,? extends T> before1,
                                                         @Nonnull
                                                         LIntUnaryOperator before2,
                                                         @Nonnull
                                                         LByteUnaryOperator before3)

Allows to manipulate the domain of the function.

composed

static <V1,T,R> LObjIntByteFunction<V1,R> composed(@Nonnull
                                                   LFunction<? super V1,? extends T> before1,
                                                   @Nonnull
                                                   LIntUnaryOperator before2,
                                                   @Nonnull
                                                   LByteUnaryOperator before3,
                                                   LObjIntByteFunction<T,R> after)

objIntByteFuncCompose

@Nonnull
default <V1,V2,V3> LTriFunction<V1,V2,V3,R> objIntByteFuncCompose(@Nonnull
                                                                            LFunction<? super V1,? extends T> before1,
                                                                            @Nonnull
                                                                            LToIntFunction<? super V2> before2,
                                                                            @Nonnull
                                                                            LToByteFunction<? super V3> before3)

Allows to manipulate the domain of the function.

composed

static <V1,V2,V3,T,R> LTriFunction<V1,V2,V3,R> composed(@Nonnull
                                                        LFunction<? super V1,? extends T> before1,
                                                        @Nonnull
                                                        LToIntFunction<? super V2> before2,
                                                        @Nonnull
                                                        LToByteFunction<? super V3> before3,
                                                        LObjIntByteFunction<T,R> after)

then

@Nonnull
default <V> LObjIntByteFunction<T,V> then(@Nonnull
                                                    LFunction<? super R,? extends V> after)

Combines two functions together in a order.

thenConsume

@Nonnull
default LTieByteConsumer<T> thenConsume(@Nonnull
                                                  LConsumer<? super R> after)

Combines two functions together in a order.

before

@Nonnull
default LObjIntByteFunction<T,R> before(@Nonnull
                                                  LTieByteConsumer<? super T> before)

after

@Nonnull
default LObjIntByteFunction<T,R> after(@Nonnull
                                                 LConsumer<? super R> after)

thenToInt

@Nonnull
default LTieByteFunction<T> thenToInt(@Nonnull
                                                LToIntFunction<? super R> after)

Combines two functions together in a order.

thenToBool

@Nonnull
default LObjIntBytePredicate<T> thenToBool(@Nonnull
                                                     LPredicate<? super R> after)

Combines two functions together in a order.

nonNullable

@Nonnull
default LObjIntByteFunction<T,R> nonNullable()

Converts to function that makes sure that the result is not null.

produce

static <T,R> R produce(T a1,
                       int a2,
                       byte a3)

Does nothing (LObjIntByteFunction) Function

produce

static <T,R> R produce(T a1,
                       byte a3,
                       int a2)

Does nothing (LObjIntByteFunction.LObjByteIntFunc) Function

produce

static <T,R> R produce(int a2,
                       T a1,
                       byte a3)

Does nothing (LObjIntByteFunction.LIntObjByteFunc) Function

produce

static <T,R> R produce(int a2,
                       byte a3,
                       T a1)

Does nothing (LObjIntByteFunction.LIntByteObjFunc) Function

produce

static <T,R> R produce(byte a3,
                       T a1,
                       int a2)

Does nothing (LObjIntByteFunction.LByteObjIntFunc) Function

produce

static <T,R> R produce(byte a3,
                       int a2,
                       T a1)

Does nothing (LObjIntByteFunction.LByteIntObjFunc) Function

forEach

default <C1,C2,C3> void forEach(IndexedRead<C1,aType.a<T>> ia1,
                                C1 source1,
                                IndexedRead<C2,aType.aInt> ia2,
                                C2 source2,
                                IndexedRead<C3,aType.aByte> ia3,
                                C3 source3,
                                LConsumer<? super R> consumer)

For each element (or tuple) from arguments, calls the function and passes the result to consumer. Thread safety, fail-fast, fail-safety of this method is not expected.

iterate

default <C1,I1,C2,C3> void iterate(SequentialRead<C1,I1,aType.a<T>> sa1,
                                   C1 source1,
                                   IndexedRead<C2,aType.aInt> ia2,
                                   C2 source2,
                                   IndexedRead<C3,aType.aByte> ia3,
                                   C3 source3,
                                   LConsumer<? super R> consumer)

For each element (or tuple) from arguments, calls the function and passes the result to consumer. Thread safety, fail-fast, fail-safety of this method is not expected.

iterate

default <C1,C2,I2,C3> void iterate(IndexedRead<C1,aType.a<T>> ia1,
                                   C1 source1,
                                   SequentialRead<C2,I2,aType.aInt> sa2,
                                   C2 source2,
                                   IndexedRead<C3,aType.aByte> ia3,
                                   C3 source3,
                                   LConsumer<? super R> consumer)

For each element (or tuple) from arguments, calls the function and passes the result to consumer. Thread safety, fail-fast, fail-safety of this method is not expected.

iterate

default <C1,I1,C2,I2,C3> void iterate(SequentialRead<C1,I1,aType.a<T>> sa1,
                                      C1 source1,
                                      SequentialRead<C2,I2,aType.aInt> sa2,
                                      C2 source2,
                                      IndexedRead<C3,aType.aByte> ia3,
                                      C3 source3,
                                      LConsumer<? super R> consumer)

For each element (or tuple) from arguments, calls the function and passes the result to consumer. Thread safety, fail-fast, fail-safety of this method is not expected.

iterate

default <C1,C2,C3,I3> void iterate(IndexedRead<C1,aType.a<T>> ia1,
                                   C1 source1,
                                   IndexedRead<C2,aType.aInt> ia2,
                                   C2 source2,
                                   SequentialRead<C3,I3,aType.aByte> sa3,
                                   C3 source3,
                                   LConsumer<? super R> consumer)

For each element (or tuple) from arguments, calls the function and passes the result to consumer. Thread safety, fail-fast, fail-safety of this method is not expected.

iterate

default <C1,I1,C2,C3,I3> void iterate(SequentialRead<C1,I1,aType.a<T>> sa1,
                                      C1 source1,
                                      IndexedRead<C2,aType.aInt> ia2,
                                      C2 source2,
                                      SequentialRead<C3,I3,aType.aByte> sa3,
                                      C3 source3,
                                      LConsumer<? super R> consumer)

For each element (or tuple) from arguments, calls the function and passes the result to consumer. Thread safety, fail-fast, fail-safety of this method is not expected.

iterate

default <C1,C2,I2,C3,I3> void iterate(IndexedRead<C1,aType.a<T>> ia1,
                                      C1 source1,
                                      SequentialRead<C2,I2,aType.aInt> sa2,
                                      C2 source2,
                                      SequentialRead<C3,I3,aType.aByte> sa3,
                                      C3 source3,
                                      LConsumer<? super R> consumer)

For each element (or tuple) from arguments, calls the function and passes the result to consumer. Thread safety, fail-fast, fail-safety of this method is not expected.

iterate

default <C1,I1,C2,I2,C3,I3> void iterate(SequentialRead<C1,I1,aType.a<T>> sa1,
                                         C1 source1,
                                         SequentialRead<C2,I2,aType.aInt> sa2,
                                         C2 source2,
                                         SequentialRead<C3,I3,aType.aByte> sa3,
                                         C3 source3,
                                         LConsumer<? super R> consumer)

For each element (or tuple) from arguments, calls the function and passes the result to consumer. Thread safety, fail-fast, fail-safety of this method depends highly on the arguments.