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/*
 * vertx-future-utils - Convenient Utilities for Vert.x Future
 * https://github.com/hltj/vertx-future-utils
 *
 * Copyright (C) 2020  JiaYanwei  https://hltj.me
 *
 * This code is free software: you can redistribute it and/or modify
 * it under the terms of the GNU Lesser General Public License as published
 * by the Free Software Foundation, either version 3 of the License, or
 * (at your option) any later version.
 *
 * This code is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public License
 * along with this program.  If not, see .
 *
 * Please contact me (jiaywe#at#gmail.com, replace the '#at#' with 'at')
 * if you need additional information or have any questions.
 */
package me.hltj.vertx.future;

import io.vertx.core.CompositeFuture;
import io.vertx.core.Future;
import lombok.ToString;
import me.hltj.vertx.function.*;

import java.util.function.BiFunction;
import java.util.function.Consumer;
import java.util.function.Supplier;

import static me.hltj.vertx.FutureUtils.joinWrap;

/**
 * The composite {@link Future} tuple warps a {@link CompositeFuture} and a {@link FutureTuple4}.
 * 

* Not only retains the type parameters of the original {@code Future}s, * but also provide many convenient operations as a complement to {@code CompositeFuture}. * * @param the type parameter of the 1st {@code Future} * @param the type parameter of the 2nd {@code Future} * @param the type parameter of the 3rd {@code Future} * @param the type parameter of the 4th {@code Future} */ @ToString(includeFieldNames = false) final public class CompositeFutureTuple4 extends CompositeFutureWrapper { private final FutureTuple4 tuple4; private CompositeFutureTuple4(CompositeFuture composite, FutureTuple4 tuple4) { super(composite); this.tuple4 = tuple4; } /** * Create a {@link CompositeFutureTuple4} based on a {@link CompositeFuture} and a {@link FutureTuple4}. * * @param the type parameter of the 1st {@code Future} * @param the type parameter of the 2nd {@code Future} * @param the type parameter of the 3rd {@code Future} * @param the type parameter of the 4th {@code Future} * @param tuple4 the {@code FutureTuple4} * @param compose the {@code CompositeFuture} * @return the {@code CompositeFutureTuple4} */ public static CompositeFutureTuple4 of( FutureTuple4 tuple4, CompositeFuture compose ) { return new CompositeFutureTuple4<>(compose, tuple4); } /** * Return the original {@link FutureTuple4}. */ public FutureTuple4 tuple() { return tuple4; } /** * Run side-effect code likes {@link CompositeFutureWrapper#use(Consumer)}, but the {@code consumer5} takes the * original 4 {@link Future}s as additional parameters. *

* It likes {@link CompositeFutureTuple2#use(Consumer3)} but with 4-arity. */ public void use(Consumer5, Future, Future, Future> consumer5) { consumer5.accept(composite, tuple4.get_0(), tuple4.get_1(), tuple4.get_2(), tuple4.get_3()); } /** * Map the original {@link CompositeFuture} and the original 4 {@link Future}s. *

* It likes {@link CompositeFutureTuple2#with(Function3)} but with 4-arity. */ public R with(Function5, Future, Future, Future, R> function5) { return function5.apply(composite, tuple4.get_0(), tuple4.get_1(), tuple4.get_2(), tuple4.get_3()); } /** * Alias for {@link #through(Function4)}. */ public Future mapAnyway(Function4, Future, Future, Future, R> function4) { return through(function4); } /** * Map a function that takes the original 4 {@link Future}s on complete no matter whether succeeded or failed. *

* It likes {@link CompositeFutureTuple2#through(BiFunction)} but with 4-arity. */ public Future through(Function4, Future, Future, Future, R> function4) { return joinThrough(function4.andThen(Future::succeededFuture)); } /** * Alias for {@link #joinThrough(Function4)}. */ public Future flatMapAnyway(Function4, Future, Future, Future, Future> function4) { return joinThrough(function4); } /** * Map a function that takes the original 4 {@link Future}s on complete no matter whether succeeded or failed, * and join (also known as {@code flatten}) the result before return. * *

* It likes {@link CompositeFutureTuple2#joinThrough(BiFunction)} but with 4-arity. */ public Future joinThrough(Function4, Future, Future, Future, Future> function4) { Supplier> supplier = () -> function4.apply( tuple4.get_0(), tuple4.get_1(), tuple4.get_2(), tuple4.get_3() ); return composite.compose(_x -> joinWrap(supplier), _t -> joinWrap(supplier)); } /** * Alias for {@link CompositeFutureTuple4#applift(Function4)}. */ public Future mapTyped(Function4 function4) { return applift(function4); } /** * Apply a function that accept all results of the original {@link Future}s on success, and return * a {@link Future}. *

* It likes {@link CompositeFutureTuple2#applift(BiFunction)} but with 4-arity. */ public Future applift(Function4 function4) { return composite.map(future -> function4.apply( composite.resultAt(0), composite.resultAt(1), composite.resultAt(2), composite.resultAt(3) )); } /** * Alias for {@link CompositeFutureTuple4#joinApplift(Function4)}. */ public Future flatMapTyped(Function4> function4) { return joinApplift(function4); } /** * Apply a function that accept all results of the original {@link Future}s on success, and return * a {@link Future}, where the function itself return a {@link Future}. *

* It likes {@link CompositeFutureTuple2#joinApplift(BiFunction)} but with 4-arity. */ public Future joinApplift(Function4> function4) { return composite.flatMap(future -> function4.apply( composite.resultAt(0), composite.resultAt(1), composite.resultAt(2), composite.resultAt(3) )); } }





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