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fastutil extends the Java Collections Framework by providing type-specific maps, sets, lists, and queues with a small memory footprint and fast operations; it provides also big (64-bit) arrays, sets, and lists, sorting algorithms, fast, practical I/O classes for binary and text files, and facilities for memory mapping large files. This jar (fastutil-core.jar) contains data structures based on integers, longs, doubles, and objects, only; fastutil.jar contains all classes. If you have both jars in your dependencies, this jar should be excluded.

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/*
	* Copyright (C) 2017-2021 Sebastiano Vigna
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	*     http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/
package it.unimi.dsi.fastutil.chars;
import java.util.Objects;
import java.util.function.Consumer;
/**
 * A type-specific {@link Consumer}; provides methods to consume a primitive
 * type both as object and as primitive.
 *
 * 

* Except for the boolean case, this interface extends both a parameterized * {@link java.util.function.Consumer} and a type-specific JDK consumer (e.g., * {@link java.util.function.IntConsumer}). For types missing a type-specific * JDK consumer (e.g., {@code short} or {@code float}), we extend the consumer * associated with the smallest primitive type that can represent the current * type (e.g., {@code int} or {@code double}, respectively). * * @see Consumer * @since 8.0.0 */ @FunctionalInterface public interface CharConsumer extends Consumer, java.util.function.IntConsumer { /** * Performs this operation on the given input. * * @param t * the input. */ void accept(char t); /** * {@inheritDoc} * * @deprecated Please use the corresponding exact type-specific method instead. */ @Deprecated @Override default void accept(final int t) { accept(it.unimi.dsi.fastutil.SafeMath.safeIntToChar(t)); } /** * {@inheritDoc} * * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override default void accept(final Character t) { this.accept(t.charValue()); } /** * Returns a composed type-specific consumer that performs, in sequence, this * operation followed by the {@code after} operation. * * @param after * the operation to perform after this operation. * @return a composed {@code Consumer} that performs in sequence this operation * followed by the {@code after} operation. * @see Consumer#andThen * @apiNote Implementing classes should generally override this method and keep * the default implementation of the other overloads, which will * delegate to this method (after proper conversions). */ default CharConsumer andThen(final CharConsumer after) { Objects.requireNonNull(after); return t -> { accept(t); after.accept(t); }; } /** * {@inheritDoc} * * @implNote Composing with a JDK type-specific consumer will be slightly less * efficient than using a type-specific consumer, as the argument will * have to be widened at each call. */ @Override default CharConsumer andThen(final java.util.function.IntConsumer after) { return andThen(after instanceof CharConsumer ? (CharConsumer) after : (CharConsumer) after::accept); } /** * {@inheritDoc} * * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override default Consumer andThen(final Consumer after) { return Consumer.super.andThen(after); } }





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