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/*
* Copyright (C) 2020-2022 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 PACKAGE;
import java.util.Objects;
import java.util.function.Predicate;
/** A type-specific {@link Predicate}; provides methods to test a primitive type both as object
* and as primitive.
*
* Except for the boolean case, this interface extends both a parameterized {@link java.util.function.Predicate}
* and a type-specific JDK predicate (e.g., {@link java.util.function.IntPredicate}). For types missing
* a type-specific JDK predicate (e.g., {@code short} or {@code float}), we extend the predicate associated with
* the smallest primitive type that can represent the current type (e.g., {@code int} or {@code double}, respectively).
*
* @see Predicate
* @since 8.5.0
*/
@FunctionalInterface
#if ! KEY_CLASS_Boolean
public interface KEY_PREDICATE KEY_GENERIC extends Predicate, JDK_PRIMITIVE_PREDICATE {
#else
public interface KEY_PREDICATE KEY_GENERIC extends Predicate {
#endif
#if ! KEYS_INT_LONG_DOUBLE
/**
* Evaluates this predicate on the given input.
*
* @param t the input.
* @return {@code true} if the input matches the predicate,
* otherwise {@code false}
*/
boolean test(KEY_TYPE t);
#if ! KEY_CLASS_Boolean
/** {@inheritDoc}
* @deprecated Please use the corresponding type-specific method instead. */
@Deprecated
@Override
default boolean test(final KEY_TYPE_WIDENED t) {
return test(KEY_NARROWING(t));
}
#endif
#if KEY_CLASS_Boolean
/**
* Returns a {@code BooleanPredicate} that returns the boolean to be tested unmodified.
* @see java.util.function.UnaryOperator#identity()
*/
public static KEY_PREDICATE identity() {
// Java is smart enough to see this lambda is stateless and will return the same instance every time.
return b -> b;
}
/** Returns a {@code BooleanPredicate} that returns the negation of the boolean to be tested. */
public static KEY_PREDICATE negation() {
return b -> !b;
}
#endif
#endif
/** {@inheritDoc}
* @deprecated Please use the corresponding type-specific method instead. */
@Deprecated
@Override
default boolean test(final KEY_CLASS t) {
return test(t.KEY_VALUE());
}
/**
* Returns a composed type-specific predicate that represents a short-circuiting logical
* AND of this type-specific predicate and another.
* @param other a predicate that will be logically-ANDed with this predicate.
* @return a composed predicate that represents the short-circuiting logical
* AND of this predicate and the {@code other} predicate.
* @see Predicate#and
* @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 KEY_PREDICATE and(final METHOD_ARG_PREDICATE other) {
Objects.requireNonNull(other);
return t -> test(t) && other.test(t);
}
#if KEYS_INT_LONG_DOUBLE
/**
* Returns a composed type-specific predicate that represents a short-circuiting logical
* AND of this type-specific predicate and another.
*
* WARNING: Overriding this method is almost always a mistake, as this
* overload only exists to disambiguate. Instead, override the {@code and()} overload
* that uses the JDK's primitive predicate type (e.g. {@link java.util.function.IntPredicate}).
*
*
If Java supported final default methods, this would be one, but sadly it does not.
*
*
If you checked and are overriding the version with {@code java.util.function.XPredicate}, and
* you still see this warning, then your IDE is incorrectly conflating this method with the proper
* method to override, and you can safely ignore this message.
*
* @param other a predicate that will be logically-ANDed with this predicate.
* @return a composed predicate that represents the short-circuiting logical
* AND of this predicate and the {@code other} predicate.
* @see Predicate#and
*/
default KEY_PREDICATE and(final KEY_PREDICATE other) {
return and((JDK_PRIMITIVE_PREDICATE) other);
}
#elif ! KEY_CLASS_Boolean
/** {@inheritDoc}
* @implNote Composing with a JDK type-specific predicate will be slightly less efficient than using a type-specific predicate, as the argument will have to be widened at each call. */
@Override
default KEY_PREDICATE and(final JDK_PRIMITIVE_PREDICATE other) {
return and(other instanceof KEY_PREDICATE ? (KEY_PREDICATE)other : (KEY_PREDICATE)other::test);
}
#endif
/** {@inheritDoc}
* @deprecated Please use the corresponding type-specific method instead. */
@Deprecated
@Override
default Predicate and(final Predicate other) {
return Predicate.super.and(other);
}
@Override
/** {@inheritDoc} */
default KEY_PREDICATE negate() {
return t -> ! test(t);
}
/**
* Returns a composed type-specific predicate that represents a short-circuiting logical
* OR of this type-specific predicate and another.
* @param other a predicate that will be logically-ORed with this predicate.
* @return a composed predicate that represents the short-circuiting logical
* OR of this predicate and the {@code other} predicate.
* @see Predicate#or
* @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 KEY_PREDICATE or(final METHOD_ARG_PREDICATE other) {
Objects.requireNonNull(other);
return t -> test(t) || other.test(t);
}
#if KEYS_INT_LONG_DOUBLE
/**
* Returns a composed type-specific predicate that represents a short-circuiting logical
* OR of this type-specific predicate and another.
*
* WARNING: Overriding this method is almost always a mistake, as this
* overload only exists to disambiguate. Instead, override the {@code or()} overload
* that uses the JDK's primitive predicate type (e.g. {@link java.util.function.IntPredicate}).
*
*
If Java supported final default methods, this would be one, but sadly it does not.
*
*
If you checked and are overriding the version with {@code java.util.function.XPredicate}, and
* you still see this warning, then your IDE is incorrectly conflating this method with the proper
* method to override, and you can safely ignore this message.
*
* @param other a predicate that will be logically-ORed with this predicate.
* @return a composed predicate that represents the short-circuiting logical
* OR of this predicate and the {@code other} predicate.
* @see Predicate#or
*/
default KEY_PREDICATE or(final KEY_PREDICATE other) {
return or((JDK_PRIMITIVE_PREDICATE) other);
}
#elif ! KEY_CLASS_Boolean
/** {@inheritDoc}
* @implNote Composing with a JDK type-specific predicate will be slightly less efficient than using a type-specific predicate, as the argument will have to be widened at each call. */
@Override
default KEY_PREDICATE or(final JDK_PRIMITIVE_PREDICATE other) {
return or(other instanceof KEY_PREDICATE ? (KEY_PREDICATE)other : (KEY_PREDICATE)other::test);
}
#endif
/** {@inheritDoc}
* @deprecated Please use the corresponding type-specific method instead. */
@Deprecated
@Override
default Predicate or(final Predicate other) {
return Predicate.super.or(other);
}
}