eu.lunisolar.magma.func.consumer.primitives.obj

Interface LObjByteConsumer<T>

All Superinterfaces:

Codomain<aType.aVoid>, Domain, Domain2<aType.a<T>,aType.aByte>, Formattable, MetaConsumer, MetaFunctionalInterface, MetaInterface, MetaInterface.NonThrowing, MetaInterface.Throwing<RuntimeException>, TeConsumer<T,aType.aByte>

All Known Subinterfaces:

LObjByteConsumer.LByteObjCons<T>

All Known Implementing Classes:

LObjByteConsumer.LObjByteConsumerSingle

@FunctionalInterface
public interface LObjByteConsumer<T>
extends MetaConsumer, MetaInterface.NonThrowing, TeConsumer<T,aType.aByte>, Codomain<aType.aVoid>, Domain2<aType.a<T>,aType.aByte>

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

Type: consumer

Domain (lvl: 2): T a1,byte a2

Co-domain: none

Special case of consumer that corresponds to expressions like (list, element) -> List::add

Nested Class Summary

Nested Classes

Modifier and Type	Interface and Description
static interface	LObjByteConsumer.LByteObjCons<T> Permutation of LObjByteConsumer for method references.
static class	LObjByteConsumer.LObjByteConsumerSingle<T>

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

Method Summary

Modifier and Type	Method and Description
default void	accept(T a1, byte a2)
default void	accept(T a1, byte a2, ExWF<RuntimeException> exF)
default void	accept(T a1, byte a2, ExWMF<RuntimeException> exF, String newMessage, Object... messageParams)
static <T> LObjByteConsumer<T>	accept1st(LConsumer<T> func) Captures single parameter function into this interface where only 1st parameter will be used.
static <T> LObjByteConsumer<T>	accept2nd(LByteConsumer func) Captures single parameter function into this interface where only 2nd parameter will be used.
default void	acceptThen(T a1, byte a2, LConsumer<Throwable> handler)
void	acceptX(T a1, byte a2) Implement this, but call accept(T a1,byte a2)
default LObjByteConsumer<T>	andThen(LObjByteConsumer<? super T> after) Combines two LObjByteConsumer together in a order.
static <T> LObjByteConsumer.LByteObjCons<T>	byteObjCons(LObjByteConsumer.LByteObjCons<T> lambda) Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).
static <T> void	call(T a1, byte a2, LObjByteConsumer<T> lambda)
default LAction	capture(T a1, byte a2) Captures arguments but delays the evaluation.
default <V2> LObjByteConsumer<V2>	cast() Cast that replace generics.
static <V2,T> LObjByteConsumer<V2>	cast(LObjByteConsumer<T> function) Cast that replace generics.
default <V1> LObjByteConsumer<V1>	compose(LFunction<? super V1,? extends T> before1, LByteUnaryOperator before2) Allows to manipulate the domain of the function.
static <V1,T> LObjByteConsumer<V1>	composed(LFunction<? super V1,? extends T> before1, LByteUnaryOperator before2, LObjByteConsumer<T> after)
static <V1,V2,T> LBiConsumer<V1,V2>	composed(LFunction<? super V1,? extends T> before1, LToByteFunction<? super V2> before2, LObjByteConsumer<T> after)
static <T> void	doNothing(byte a2, T a1) Does nothing (LObjByteConsumer.LByteObjCons)
static <T> void	doNothing(T a1, byte a2) Does nothing (LObjByteConsumer)
static <T> LObjByteConsumer<T>	failSafe(LObjByteConsumer<T> func, LObjByteConsumer<T> failSafe)
default void	failSafeAccept(T a1, byte a2, LObjByteConsumer<T> failSafe)
static <T> void	failSafeAccept(T a1, byte a2, LObjByteConsumer<T> func, LObjByteConsumer<T> failSafe)
static <C1,C2,T> int	forEach(IndexedRead<C1,aType.a<T>> ia1, C1 source1, IndexedRead<C2,aType.aByte> ia2, C2 source2, LObjByteConsumer<? super T> consumer) For each element (or tuple) from arguments, calls the consumer.
static <T> void	fromTill(int min_i, int max_i, T a1, byte a2, LObjByteConsumer<T> func) From-To.
static <T> void	fromTo(int min_i, int max_i, T a1, byte a2, LObjByteConsumer<T> func) From-To.
default String	functionalInterfaceDescription() Returns description of the functional interface.
default <C2> T	genericForEach(T a1, IndexedRead<C2,aType.aByte> ia2, C2 source2) ITERATION: TE_CONSUMER_GEN_IA: FOR, [SourcePurpose{arg=T a1, type=CONST}, SourcePurpose{arg=byte a2, type=IA}]
default <C2,I2> T	genericIterate(T a1, SequentialRead<C2,I2,aType.aByte> sa2, C2 source2) ITERATION: TE_CONSUMER_GEN_SA: WHILE, [SourcePurpose{arg=T a1, type=CONST}, SourcePurpose{arg=byte a2, type=SA}]
default LObjByteConsumer<T>	handling(HandlingInstructions<Throwable,RuntimeException> handling)
default void	handlingAccept(T a1, byte a2, HandlingInstructions<Throwable,RuntimeException> handling) Function call that handles exceptions according to the instructions.
static <T> void	handlingAccept(T a1, byte a2, LObjByteConsumer<T> func, HandlingInstructions<Throwable,RuntimeException> handling)
static <C1,C2,I2,T> int	iterate(IndexedRead<C1,aType.a<T>> ia1, C1 source1, SequentialRead<C2,I2,aType.aByte> sa2, C2 source2, LObjByteConsumer<? super T> consumer) For each element (or tuple) from arguments, calls the consumer.
static <C1,I1,C2,T> int	iterate(SequentialRead<C1,I1,aType.a<T>> sa1, C1 source1, IndexedRead<C2,aType.aByte> ia2, C2 source2, LObjByteConsumer<? super T> consumer) For each element (or tuple) from arguments, calls the consumer.
static <C1,I1,C2,I2,T> int	iterate(SequentialRead<C1,I1,aType.a<T>> sa1, C1 source1, SequentialRead<C2,I2,aType.aByte> sa2, C2 source2, LObjByteConsumer<? super T> consumer) For each element (or tuple) from arguments, calls the consumer.
default LByteConsumer	lShrink(LByteFunction<T> left)
default LByteConsumer	lShrinkc(T a1)
static <T> LByteConsumer	lShrinked(LByteFunction<T> left, LObjByteConsumer<T> func)
static <T> LByteConsumer	lShrinkedc(T a1, LObjByteConsumer<T> func)
default void	nestingAccept(T a1, byte a2) Function call that handles exceptions by always nesting checked exceptions and propagating the others as is.
static <T> LObjByteConsumer<T>	objByteCons(LObjByteConsumer<T> lambda) Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces).
default <V1,V2> LBiConsumer<V1,V2>	objByteConsCompose(LFunction<? super V1,? extends T> before1, LToByteFunction<? super V2> before2) Allows to manipulate the domain of the function.
static <T> LObjByteConsumer<T>	objByteConsThrowing(ExF<Throwable> exF)
static <T> LObjByteConsumer<T>	objByteConsThrowing(String message, ExMF<Throwable> exF)
static <T> LObjByteConsumer<T>	recursive(LFunction<LObjByteConsumer<T>,LObjByteConsumer<T>> selfLambda)
default LConsumer<T>	rShrink(LToByteFunction<T> right)
default LConsumer<T>	rShrinkc(byte a2)
static <T> LConsumer<T>	rShrinked(LToByteFunction<T> right, LObjByteConsumer<T> func)
static <T> LConsumer<T>	rShrinkedc(byte a2, LObjByteConsumer<T> func)
static <T> LObjByteConsumer<T>	safe() Safe instance.
static <T> LObjByteConsumer<T>	safe(LObjByteConsumer<T> other) Safe wrapping.
static <T> LSupplier<LObjByteConsumer<T>>	safeSupplier() Safe instance supplier.
static <T> LSupplier<LObjByteConsumer<T>>	safeSupplier(LSupplier<LObjByteConsumer<T>> supplier) Safe supplier.
default void	shovingAccept(T a1, byte a2) Function call that handles exceptions by always propagating them as is, even when they are undeclared checked ones.
static <T,C2> T	targetedForEach(T a1, IndexedRead<C2,aType.aByte> ia2, C2 source2, LObjByteConsumer<? super T> consumer) For each element (or tuple) from arguments, calls the consumer.
static <T,C2,I2> T	targetedIterate(T a1, SequentialRead<C2,I2,aType.aByte> sa2, C2 source2, LObjByteConsumer<? super T> consumer) For each element (or tuple) from arguments, calls the consumer.
static <T> void	times(int max_i, T a1, byte a2, LObjByteConsumer<T> func) From-To.
static <T> void	tryAccept(T a1, byte a2, LObjByteConsumer<T> func)
static <T> void	tryAccept(T a1, byte a2, LObjByteConsumer<T> func, ExWF<RuntimeException> exF)
static <T> void	tryAccept(T a1, byte a2, LObjByteConsumer<T> func, ExWMF<RuntimeException> exF, String newMessage, Object... messageParams)
static <T> void	tryAcceptThen(T a1, byte a2, LObjByteConsumer<T> func, LConsumer<Throwable> handler)
default LObjByteConsumer<T>	trying(ExWF<RuntimeException> exF)
default LObjByteConsumer<T>	trying(ExWMF<RuntimeException> exF, String newMessage, Object... messageParams)
default LObjByteConsumer<T>	tryingThen(LConsumer<Throwable> handler)
default LTuple.Void	tupleAccept(LObjBytePair<T> args)
static <T> LObjByteConsumer<T>	uncurry(LFunction<T,LByteConsumer> func)
default LObjByteConsumer	untyped() Cast that removes generics.

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

isThrowing

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

isConsumer

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

formatTo, isAction, isFunction, isOperator, isPredicate, isSupplier

Field Detail

DESCRIPTION

static final String DESCRIPTION

See Also:

Constant Field Values

Method Detail

accept

default void accept(T a1,
                    byte a2)

acceptX

void acceptX(T a1,
             byte a2)
      throws Throwable

Implement this, but call accept(T a1,byte a2)

Throws:

Throwable

tupleAccept

default LTuple.Void tupleAccept(LObjBytePair<T> args)

handlingAccept

default void handlingAccept(T a1,
                            byte a2,
                            HandlingInstructions<Throwable,RuntimeException> handling)

Function call that handles exceptions according to the instructions.

handling

default LObjByteConsumer<T> handling(HandlingInstructions<Throwable,RuntimeException> handling)

accept

default void accept(T a1,
                    byte a2,
                    @Nonnull
                    ExWMF<RuntimeException> exF,
                    @Nonnull
                    String newMessage,
                    @Nullable
                    Object... messageParams)

trying

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

accept

default void accept(T a1,
                    byte a2,
                    @Nonnull
                    ExWF<RuntimeException> exF)

trying

default LObjByteConsumer<T> trying(@Nonnull
                                   ExWF<RuntimeException> exF)

acceptThen

default void acceptThen(T a1,
                        byte a2,
                        @Nonnull
                        LConsumer<Throwable> handler)

tryingThen

default LObjByteConsumer<T> tryingThen(@Nonnull
                                       LConsumer<Throwable> handler)

nestingAccept

default void nestingAccept(T a1,
                           byte a2)

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

shovingAccept

default void shovingAccept(T a1,
                           byte a2)

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

handlingAccept

static <T> void handlingAccept(T a1,
                               byte a2,
                               LObjByteConsumer<T> func,
                               HandlingInstructions<Throwable,RuntimeException> handling)

tryAccept

static <T> void tryAccept(T a1,
                          byte a2,
                          LObjByteConsumer<T> func)

tryAccept

static <T> void tryAccept(T a1,
                          byte a2,
                          LObjByteConsumer<T> func,
                          @Nonnull
                          ExWMF<RuntimeException> exF,
                          @Nonnull
                          String newMessage,
                          @Nullable
                          Object... messageParams)

tryAccept

static <T> void tryAccept(T a1,
                          byte a2,
                          LObjByteConsumer<T> func,
                          @Nonnull
                          ExWF<RuntimeException> exF)

tryAcceptThen

static <T> void tryAcceptThen(T a1,
                              byte a2,
                              LObjByteConsumer<T> func,
                              @Nonnull
                              LConsumer<Throwable> handler)

failSafeAccept

default void failSafeAccept(T a1,
                            byte a2,
                            @Nonnull
                            LObjByteConsumer<T> failSafe)

failSafeAccept

static <T> void failSafeAccept(T a1,
                               byte a2,
                               LObjByteConsumer<T> func,
                               @Nonnull
                               LObjByteConsumer<T> failSafe)

failSafe

static <T> LObjByteConsumer<T> failSafe(LObjByteConsumer<T> func,
                                        @Nonnull
                                        LObjByteConsumer<T> failSafe)

functionalInterfaceDescription

@Nonnull
default String functionalInterfaceDescription()

Returns description of the functional interface.

Specified by:

functionalInterfaceDescription in interface MetaFunctionalInterface

fromTo

static <T> void fromTo(int min_i,
                       int max_i,
                       T a1,
                       byte a2,
                       LObjByteConsumer<T> func)

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

fromTill

static <T> void fromTill(int min_i,
                         int max_i,
                         T a1,
                         byte a2,
                         LObjByteConsumer<T> func)

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

times

static <T> void times(int max_i,
                      T a1,
                      byte a2,
                      LObjByteConsumer<T> func)

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

lShrink

default LByteConsumer lShrink(LByteFunction<T> left)

lShrinkc

default LByteConsumer lShrinkc(T a1)

lShrinked

static <T> LByteConsumer lShrinked(LByteFunction<T> left,
                                   LObjByteConsumer<T> func)

lShrinkedc

static <T> LByteConsumer lShrinkedc(T a1,
                                    LObjByteConsumer<T> func)

rShrink

default LConsumer<T> rShrink(LToByteFunction<T> right)

rShrinkc

default LConsumer<T> rShrinkc(byte a2)

rShrinked

static <T> LConsumer<T> rShrinked(LToByteFunction<T> right,
                                  LObjByteConsumer<T> func)

rShrinkedc

static <T> LConsumer<T> rShrinkedc(byte a2,
                                   LObjByteConsumer<T> func)

uncurry

static <T> LObjByteConsumer<T> uncurry(LFunction<T,LByteConsumer> func)

untyped

default LObjByteConsumer untyped()

Cast that removes generics.

cast

default <V2> LObjByteConsumer<V2> cast()

Cast that replace generics.

cast

static <V2,T> LObjByteConsumer<V2> cast(LObjByteConsumer<T> function)

Cast that replace generics.

capture

default LAction capture(T a1,
                        byte a2)

Captures arguments but delays the evaluation.

accept1st

@Nonnull
static <T> LObjByteConsumer<T> accept1st(@Nonnull
                                                   LConsumer<T> func)

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

accept2nd

@Nonnull
static <T> LObjByteConsumer<T> accept2nd(@Nonnull
                                                   LByteConsumer func)

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

objByteCons

@Nonnull
static <T> LObjByteConsumer<T> objByteCons(@Nonnull
                                                     LObjByteConsumer<T> 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> LObjByteConsumer<T> recursive(@Nonnull
                                                   LFunction<LObjByteConsumer<T>,LObjByteConsumer<T>> selfLambda)

objByteConsThrowing

@Nonnull
static <T> LObjByteConsumer<T> objByteConsThrowing(@Nonnull
                                                             ExF<Throwable> exF)

objByteConsThrowing

@Nonnull
static <T> LObjByteConsumer<T> objByteConsThrowing(String message,
                                                             @Nonnull
                                                             ExMF<Throwable> exF)

byteObjCons

@Nonnull
static <T> LObjByteConsumer.LByteObjCons<T> byteObjCons(@Nonnull
                                                                  LObjByteConsumer.LByteObjCons<T> lambda)

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

call

static <T> void call(T a1,
                     byte a2,
                     @Nonnull
                     LObjByteConsumer<T> lambda)

safe

@Nonnull
static <T> LObjByteConsumer<T> safe()

Safe instance.

safeSupplier

@Nonnull
static <T> LSupplier<LObjByteConsumer<T>> safeSupplier()

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

safe

@Nonnull
static <T> LObjByteConsumer<T> safe(@Nullable
                                              LObjByteConsumer<T> other)

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

safeSupplier

@Nonnull
static <T> LSupplier<LObjByteConsumer<T>> safeSupplier(@Nullable
                                                                 LSupplier<LObjByteConsumer<T>> supplier)

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

compose

@Nonnull
default <V1> LObjByteConsumer<V1> compose(@Nonnull
                                                    LFunction<? super V1,? extends T> before1,
                                                    @Nonnull
                                                    LByteUnaryOperator before2)

Allows to manipulate the domain of the function.

composed

static <V1,T> LObjByteConsumer<V1> composed(@Nonnull
                                            LFunction<? super V1,? extends T> before1,
                                            @Nonnull
                                            LByteUnaryOperator before2,
                                            LObjByteConsumer<T> after)

objByteConsCompose

@Nonnull
default <V1,V2> LBiConsumer<V1,V2> objByteConsCompose(@Nonnull
                                                                LFunction<? super V1,? extends T> before1,
                                                                @Nonnull
                                                                LToByteFunction<? super V2> before2)

Allows to manipulate the domain of the function.

composed

static <V1,V2,T> LBiConsumer<V1,V2> composed(@Nonnull
                                             LFunction<? super V1,? extends T> before1,
                                             @Nonnull
                                             LToByteFunction<? super V2> before2,
                                             LObjByteConsumer<T> after)

andThen

@Nonnull
default LObjByteConsumer<T> andThen(@Nonnull
                                              LObjByteConsumer<? super T> after)

Combines two LObjByteConsumer together in a order.

doNothing

static <T> void doNothing(T a1,
                          byte a2)

Does nothing (LObjByteConsumer)

doNothing

static <T> void doNothing(byte a2,
                          T a1)

Does nothing (LObjByteConsumer.LByteObjCons)

forEach

static <C1,C2,T> int forEach(IndexedRead<C1,aType.a<T>> ia1,
                             C1 source1,
                             IndexedRead<C2,aType.aByte> ia2,
                             C2 source2,
                             LObjByteConsumer<? super T> consumer)

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

iterate

static <C1,I1,C2,T> int iterate(SequentialRead<C1,I1,aType.a<T>> sa1,
                                C1 source1,
                                IndexedRead<C2,aType.aByte> ia2,
                                C2 source2,
                                LObjByteConsumer<? super T> consumer)

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

iterate

static <C1,C2,I2,T> int iterate(IndexedRead<C1,aType.a<T>> ia1,
                                C1 source1,
                                SequentialRead<C2,I2,aType.aByte> sa2,
                                C2 source2,
                                LObjByteConsumer<? super T> consumer)

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

iterate

static <C1,I1,C2,I2,T> int iterate(SequentialRead<C1,I1,aType.a<T>> sa1,
                                   C1 source1,
                                   SequentialRead<C2,I2,aType.aByte> sa2,
                                   C2 source2,
                                   LObjByteConsumer<? super T> consumer)

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

targetedForEach

static <T,C2> T targetedForEach(T a1,
                                IndexedRead<C2,aType.aByte> ia2,
                                C2 source2,
                                LObjByteConsumer<? super T> consumer)

For each element (or tuple) from arguments, calls the consumer. First argument is designated as ‘target’ object. Thread safety, fail-fast, fail-safety of this method is not expected.

targetedIterate

static <T,C2,I2> T targetedIterate(T a1,
                                   SequentialRead<C2,I2,aType.aByte> sa2,
                                   C2 source2,
                                   LObjByteConsumer<? super T> consumer)

For each element (or tuple) from arguments, calls the consumer. First argument is designated as ‘target’ object. Thread safety, fail-fast, fail-safety of this method depends highly on the arguments.

genericForEach

default <C2> T genericForEach(T a1,
                              IndexedRead<C2,aType.aByte> ia2,
                              C2 source2)

ITERATION: TE_CONSUMER_GEN_IA: FOR, [SourcePurpose{arg=T a1, type=CONST}, SourcePurpose{arg=byte a2, type=IA}]

Specified by:

genericForEach in interface TeConsumer<T,aType.aByte>

genericIterate

default <C2,I2> T genericIterate(T a1,
                                 SequentialRead<C2,I2,aType.aByte> sa2,
                                 C2 source2)

ITERATION: TE_CONSUMER_GEN_SA: WHILE, [SourcePurpose{arg=T a1, type=CONST}, SourcePurpose{arg=byte a2, type=SA}]

Specified by:

genericIterate in interface TeConsumer<T,aType.aByte>