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/*
 * This file is part of "lunisolar-magma".
 *
 * (C) Copyright 2014-2019 Lunisolar (http://lunisolar.eu/).
 *
 * 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 eu.lunisolar.magma.func.function.from;

import javax.annotation.Nonnull; // NOSONAR
import javax.annotation.Nullable; // NOSONAR
import java.util.Comparator; // NOSONAR
import java.util.Objects; // NOSONAR
import eu.lunisolar.magma.basics.*; //NOSONAR
import eu.lunisolar.magma.basics.builder.*; // NOSONAR
import eu.lunisolar.magma.basics.exceptions.*; // NOSONAR
import eu.lunisolar.magma.basics.meta.*; // NOSONAR
import eu.lunisolar.magma.basics.meta.aType.*; // NOSONAR
import eu.lunisolar.magma.basics.meta.functional.*; // NOSONAR
import eu.lunisolar.magma.basics.meta.functional.type.*; // NOSONAR
import eu.lunisolar.magma.basics.meta.functional.domain.*; // NOSONAR
import eu.lunisolar.magma.func.IA;
import eu.lunisolar.magma.func.SA;
import eu.lunisolar.magma.func.*; // NOSONAR
import eu.lunisolar.magma.func.tuple.*; // NOSONAR
import java.util.function.*; // NOSONAR
import java.util.*; // NOSONAR
import java.lang.reflect.*;

import eu.lunisolar.magma.func.action.*; // NOSONAR
import eu.lunisolar.magma.func.consumer.*; // NOSONAR
import eu.lunisolar.magma.func.consumer.primitives.*; // NOSONAR
import eu.lunisolar.magma.func.consumer.primitives.bi.*; // NOSONAR
import eu.lunisolar.magma.func.consumer.primitives.obj.*; // NOSONAR
import eu.lunisolar.magma.func.consumer.primitives.tri.*; // NOSONAR
import eu.lunisolar.magma.func.function.*; // NOSONAR
import eu.lunisolar.magma.func.function.conversion.*; // NOSONAR
import eu.lunisolar.magma.func.function.from.*; // NOSONAR
import eu.lunisolar.magma.func.function.to.*; // NOSONAR
import eu.lunisolar.magma.func.operator.binary.*; // NOSONAR
import eu.lunisolar.magma.func.operator.ternary.*; // NOSONAR
import eu.lunisolar.magma.func.operator.unary.*; // NOSONAR
import eu.lunisolar.magma.func.predicate.*; // NOSONAR
import eu.lunisolar.magma.func.supplier.*; // NOSONAR

/**
 * Non-throwing functional interface (lambda) LObjIntDblFunction for Java 8.
 *
 * Type: function
 *
 * Domain (lvl: 3): T a1,int a2,double a3
 *
 * Co-domain: R
 *
 */
@FunctionalInterface
@SuppressWarnings("UnusedDeclaration")
public interface LObjIntDblFunction extends MetaFunction, MetaInterface.NonThrowing, Codomain>, Domain3, aInt, aDouble> { // NOSONAR

	String DESCRIPTION = "LObjIntDblFunction: R apply(T a1,int a2,double a3)";

	@Nullable
	// R apply(T a1,int a2,double a3) ;
	default R apply(T a1, int a2, double a3) {
		// return nestingApply(a1,a2,a3);
		try {
			return this.applyX(a1, a2, a3);
		} catch (Throwable e) { // NOSONAR
			throw Handling.nestCheckedAndThrow(e);
		}
	}

	/**
	 * Implement this, but call apply(T a1,int a2,double a3)
	 */
	R applyX(T a1, int a2, double a3) throws Throwable;

	default R tupleApply(LObjIntDblTriple args) {
		return apply(args.first(), args.second(), args.third());
	}

	/** Function call that handles exceptions according to the instructions. */
	default R handlingApply(T a1, int a2, double a3, HandlingInstructions handling) {
		try {
			return this.applyX(a1, a2, a3);
		} catch (Throwable e) { // NOSONAR
			throw Handler.handleOrNest(e, handling);
		}
	}

	default LObjIntDblFunction handling(HandlingInstructions handling) {
		return (a1, a2, a3) -> handlingApply(a1, a2, a3, handling);
	}

	default R apply(T a1, int a2, double a3, @Nonnull ExWMF exF, @Nonnull String newMessage, @Nullable Object... messageParams) {
		try {
			return this.applyX(a1, a2, a3);
		} catch (Throwable e) { // NOSONAR
			throw Handling.wrap(e, exF, newMessage, messageParams);
		}
	}

	default LObjIntDblFunction trying(@Nonnull ExWMF exF, @Nonnull String newMessage, @Nullable Object... messageParams) {
		return (a1, a2, a3) -> apply(a1, a2, a3, exF, newMessage, messageParams);
	}

	default R apply(T a1, int a2, double a3, @Nonnull ExWF exF) {
		try {
			return this.applyX(a1, a2, a3);
		} catch (Throwable e) { // NOSONAR
			throw Handling.wrap(e, exF);
		}
	}

	default LObjIntDblFunction trying(@Nonnull ExWF exF) {
		return (a1, a2, a3) -> apply(a1, a2, a3, exF);
	}

	default R applyThen(T a1, int a2, double a3, @Nonnull LFunction handler) {
		try {
			return this.applyX(a1, a2, a3);
		} catch (Throwable e) { // NOSONAR
			Handling.handleErrors(e);
			return handler.apply(e);
		}
	}

	default LObjIntDblFunction tryingThen(@Nonnull LFunction handler) {
		return (a1, a2, a3) -> applyThen(a1, a2, a3, handler);
	}

	/** Function call that handles exceptions by always nesting checked exceptions and propagating the others as is. */
	default R nestingApply(T a1, int a2, double a3) {
		try {
			return this.applyX(a1, a2, a3);
		} catch (Throwable e) { // NOSONAR
			throw Handling.nestCheckedAndThrow(e);
		}
	}

	/** Function call that handles exceptions by always propagating them as is, even when they are undeclared checked ones. */
	default R shovingApply(T a1, int a2, double a3) {
		try {
			return this.applyX(a1, a2, a3);
		} catch (Throwable e) { // NOSONAR
			throw Handling.shoveIt(e);
		}
	}

	static  R handlingApply(T a1, int a2, double a3, LObjIntDblFunction func, HandlingInstructions handling) { // <-
		Null.nonNullArg(func, "func");
		return func.handlingApply(a1, a2, a3, handling);
	}

	static  R tryApply(T a1, int a2, double a3, LObjIntDblFunction func) {
		Null.nonNullArg(func, "func");
		return func.nestingApply(a1, a2, a3);
	}

	static  R tryApply(T a1, int a2, double a3, LObjIntDblFunction func, @Nonnull ExWMF exF, @Nonnull String newMessage, @Nullable Object... messageParams) {
		Null.nonNullArg(func, "func");
		return func.apply(a1, a2, a3, exF, newMessage, messageParams);
	}

	static  R tryApply(T a1, int a2, double a3, LObjIntDblFunction func, @Nonnull ExWF exF) {
		Null.nonNullArg(func, "func");
		return func.apply(a1, a2, a3, exF);
	}

	static  R tryApplyThen(T a1, int a2, double a3, LObjIntDblFunction func, @Nonnull LFunction handler) {
		Null.nonNullArg(func, "func");
		return func.applyThen(a1, a2, a3, handler);
	}

	default R failSafeApply(T a1, int a2, double a3, @Nonnull LObjIntDblFunction failSafe) {
		try {
			return apply(a1, a2, a3);
		} catch (Throwable e) { // NOSONAR
			Handling.handleErrors(e);
			return failSafe.apply(a1, a2, a3);
		}
	}

	static  R failSafeApply(T a1, int a2, double a3, LObjIntDblFunction func, @Nonnull LObjIntDblFunction failSafe) {
		Null.nonNullArg(failSafe, "failSafe");
		if (func == null) {
			return failSafe.apply(a1, a2, a3);
		} else {
			return func.failSafeApply(a1, a2, a3, failSafe);
		}
	}

	static  LObjIntDblFunction failSafe(LObjIntDblFunction func, @Nonnull LObjIntDblFunction failSafe) {
		Null.nonNullArg(failSafe, "failSafe");
		return (a1, a2, a3) -> failSafeApply(a1, a2, a3, func, failSafe);
	}

	LSupplier NULL_VALUE_MESSAGE_SUPPLIER = () -> "Evaluated value by nonNullApply() method cannot be null (" + DESCRIPTION + ").";

	/** Function call that ensures the result is not null */
	@Nonnull
	default R nonNullApply(T a1, int a2, double a3) {
		return Null.requireNonNull(apply(a1, a2, a3), NULL_VALUE_MESSAGE_SUPPLIER);
	}

	/** Returns description of the functional interface. */
	@Nonnull
	default String functionalInterfaceDescription() {
		return LObjIntDblFunction.DESCRIPTION;
	}

	/** From-To. Intended to be used with non-capturing lambda. */
	public static  void fromTo(int min_a2, int max_a2, T a1, double a3, LObjIntDblFunction func) {
		Null.nonNullArg(func, "func");
		if (min_a2 <= max_a2) {
			for (int a2 = min_a2; a2 <= max_a2; a2++) {
				func.apply(a1, a2, a3);
			}
		} else {
			for (int a2 = min_a2; a2 >= max_a2; a2--) {
				func.apply(a1, a2, a3);
			}
		}
	}

	/** From-To. Intended to be used with non-capturing lambda. */
	public static  void fromTill(int min_a2, int max_a2, T a1, double a3, LObjIntDblFunction func) {
		Null.nonNullArg(func, "func");
		if (min_a2 <= max_a2) {
			for (int a2 = min_a2; a2 < max_a2; a2++) {
				func.apply(a1, a2, a3);
			}
		} else {
			for (int a2 = min_a2; a2 > max_a2; a2--) {
				func.apply(a1, a2, a3);
			}
		}
	}

	/** From-To. Intended to be used with non-capturing lambda. */
	public static  void times(int max_a2, T a1, double a3, LObjIntDblFunction func) {
		if (max_a2 < 0)
			return;
		fromTill(0, max_a2, a1, a3, func);
	}

	/**  */
	public static  LObjIntDblFunction uncurry(LFunction>> func) {
		return (T a1, int a2, double a3) -> func.apply(a1).apply(a2).apply(a3);
	}

	/** Cast that removes generics. */
	public default LObjIntDblFunction untyped() {
		return this;
	}

	/** Cast that replace generics. */
	public default  LObjIntDblFunction cast() {
		return untyped();
	}

	/** Cast that replace generics. */
	public static  LObjIntDblFunction cast(LObjIntDblFunction function) {
		return (LObjIntDblFunction) function;
	}

	/** Captures arguments but delays the evaluation. */
	default LSupplier capture(T a1, int a2, double a3) {
		return () -> this.apply(a1, a2, a3);
	}

	/** Creates function that always returns the same value. */
	static  LObjIntDblFunction constant(R r) {
		return (a1, a2, a3) -> r;
	}

	/** Captures single parameter function into this interface where only 1st parameter will be used. */
	@Nonnull
	static  LObjIntDblFunction apply1st(@Nonnull LFunction func) {
		return (a1, a2, a3) -> func.apply(a1);
	}

	/** Captures single parameter function into this interface where only 2nd parameter will be used. */
	@Nonnull
	static  LObjIntDblFunction apply2nd(@Nonnull LIntFunction func) {
		return (a1, a2, a3) -> func.apply(a2);
	}

	/** Captures single parameter function into this interface where only 3rd parameter will be used. */
	@Nonnull
	static  LObjIntDblFunction apply3rd(@Nonnull LDblFunction func) {
		return (a1, a2, a3) -> func.apply(a3);
	}

	/** Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces). */
	@Nonnull
	static  LObjIntDblFunction objIntDblFunc(final @Nonnull LObjIntDblFunction lambda) {
		Null.nonNullArg(lambda, "lambda");
		return lambda;
	}

	@Nonnull
	static  LObjIntDblFunction recursive(final @Nonnull LFunction, LObjIntDblFunction> selfLambda) {
		final LObjIntDblFunctionSingle single = new LObjIntDblFunctionSingle();
		LObjIntDblFunction func = selfLambda.apply(single);
		single.target = func;
		return func;
	}

	final class LObjIntDblFunctionSingle implements LSingle>, LObjIntDblFunction {
		private LObjIntDblFunction target = null;

		@Override
		public R applyX(T a1, int a2, double a3) throws Throwable {
			return target.applyX(a1, a2, a3);
		}

		@Override
		public LObjIntDblFunction value() {
			return target;
		}
	}

	@Nonnull
	static  LObjIntDblFunction objIntDblFuncThrowing(final @Nonnull ExF exF) {
		Null.nonNullArg(exF, "exF");
		return (a1, a2, a3) -> {
			throw exF.produce();
		};
	}

	@Nonnull
	static  LObjIntDblFunction objIntDblFuncThrowing(final String message, final @Nonnull ExMF exF) {
		Null.nonNullArg(exF, "exF");
		return (a1, a2, a3) -> {
			throw exF.produce(message);
		};
	}

	// 

	/** Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces). */
	@Nonnull
	static  LObjDblIntFunc objDblIntFunc(final @Nonnull LObjDblIntFunc lambda) {
		Null.nonNullArg(lambda, "lambda");
		return lambda;
	}

	/** Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces). */
	@Nonnull
	static  LIntObjDblFunc intObjDblFunc(final @Nonnull LIntObjDblFunc lambda) {
		Null.nonNullArg(lambda, "lambda");
		return lambda;
	}

	/** Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces). */
	@Nonnull
	static  LIntDblObjFunc intDblObjFunc(final @Nonnull LIntDblObjFunc lambda) {
		Null.nonNullArg(lambda, "lambda");
		return lambda;
	}

	/** Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces). */
	@Nonnull
	static  LDblObjIntFunc dblObjIntFunc(final @Nonnull LDblObjIntFunc lambda) {
		Null.nonNullArg(lambda, "lambda");
		return lambda;
	}

	/** Convenient method in case lambda expression is ambiguous for the compiler (that might happen for overloaded methods accepting different interfaces). */
	@Nonnull
	static  LDblIntObjFunc dblIntObjFunc(final @Nonnull LDblIntObjFunc lambda) {
		Null.nonNullArg(lambda, "lambda");
		return lambda;
	}

	// 

	static  R call(T a1, int a2, double a3, final @Nonnull LObjIntDblFunction lambda) {
		Null.nonNullArg(lambda, "lambda");
		return lambda.apply(a1, a2, a3);
	}

	// 

	// 

	// 

	/** Safe instance. That always returns the same value (as produce). */
	@Nonnull
	static  LObjIntDblFunction safe() {
		return LObjIntDblFunction::produce;
	}

	/** Safe instance supplier. Returns supplier of safe() instance. */
	@Nonnull
	static  LSupplier> safeSupplier() {
		return () -> safe();
	}

	/** Safe wrapping. Either argument function is returned (if it is not null) or safe() instance. */
	@Nonnull
	static  LObjIntDblFunction safe(final @Nullable LObjIntDblFunction other) {
		if (other == null) {
			return safe();
		} else {
			return other;
		}
	}

	/** Safe supplier. Either argument supplier is returned (if it is not null) or supplier of safe() instance. */
	@Nonnull
	static  LSupplier> safeSupplier(final @Nullable LSupplier> supplier) {
		if (supplier == null) {
			return safeSupplier();
		} else {
			return supplier;
		}
	}

	// 

	// 

	/** Allows to manipulate the domain of the function. */
	@Nonnull
	default  LObjIntDblFunction compose(@Nonnull final LFunction before1, @Nonnull final LIntUnaryOperator before2, @Nonnull final LDblUnaryOperator before3) {
		Null.nonNullArg(before1, "before1");
		Null.nonNullArg(before2, "before2");
		Null.nonNullArg(before3, "before3");
		return (v1, v2, v3) -> this.apply(before1.apply(v1), before2.applyAsInt(v2), before3.applyAsDbl(v3));
	}

	public static  LObjIntDblFunction composed(@Nonnull final LFunction before1, @Nonnull final LIntUnaryOperator before2, @Nonnull final LDblUnaryOperator before3, LObjIntDblFunction after) {
		return after.compose(before1, before2, before3);
	}

	/** Allows to manipulate the domain of the function. */
	@Nonnull
	default  LTriFunction objIntDblFuncCompose(@Nonnull final LFunction before1, @Nonnull final LToIntFunction before2, @Nonnull final LToDblFunction before3) {
		Null.nonNullArg(before1, "before1");
		Null.nonNullArg(before2, "before2");
		Null.nonNullArg(before3, "before3");
		return (v1, v2, v3) -> this.apply(before1.apply(v1), before2.applyAsInt(v2), before3.applyAsDbl(v3));
	}

	public static  LTriFunction composed(@Nonnull final LFunction before1, @Nonnull final LToIntFunction before2, @Nonnull final LToDblFunction before3,
			LObjIntDblFunction after) {
		return after.objIntDblFuncCompose(before1, before2, before3);
	}

	// 

	// 

	/** Combines two functions together in a order. */
	@Nonnull
	default  LObjIntDblFunction then(@Nonnull LFunction after) {
		Null.nonNullArg(after, "after");
		return (a1, a2, a3) -> after.apply(this.apply(a1, a2, a3));
	}

	/** Combines two functions together in a order. */
	@Nonnull
	default LTieDblConsumer thenConsume(@Nonnull LConsumer after) {
		Null.nonNullArg(after, "after");
		return (a1, a2, a3) -> after.accept(this.apply(a1, a2, a3));
	}

	@Nonnull
	default LObjIntDblFunction before(@Nonnull LTieDblConsumer before) {
		Null.nonNullArg(before, "before");
		return (a1, a2, a3) -> {
			before.accept(a1, a2, a3);
			return this.apply(a1, a2, a3);
		};
	}

	@Nonnull
	default LObjIntDblFunction after(@Nonnull LConsumer after) {
		Null.nonNullArg(after, "after");
		return (a1, a2, a3) -> {
			R result = this.apply(a1, a2, a3);
			after.accept(result);
			return result;
		};
	}

	/** Combines two functions together in a order. */
	@Nonnull
	default LTieDblFunction thenToInt(@Nonnull LToIntFunction after) {
		Null.nonNullArg(after, "after");
		return (a1, a2, a3) -> after.applyAsInt(this.apply(a1, a2, a3));
	}

	/** Combines two functions together in a order. */
	@Nonnull
	default LObjIntDblPredicate thenToBool(@Nonnull LPredicate after) {
		Null.nonNullArg(after, "after");
		return (a1, a2, a3) -> after.test(this.apply(a1, a2, a3));
	}

	// 

	// 

	// 

	/** Converts to function that makes sure that the result is not null. */
	@Nonnull
	default LObjIntDblFunction nonNullable() {
		return this::nonNullApply;
	}

	// 

	/** Permutation of LObjIntDblFunction for method references. */
	@FunctionalInterface
	interface LObjDblIntFunc extends LObjIntDblFunction {
		@Nullable
		R applyObjDblInt(T a1, double a3, int a2);

		@Override
		default R applyX(T a1, int a2, double a3) {
			return this.applyObjDblInt(a1, a3, a2);
		}
	}

	/** Permutation of LObjIntDblFunction for method references. */
	@FunctionalInterface
	interface LIntObjDblFunc extends LObjIntDblFunction {
		@Nullable
		R applyIntObjDbl(int a2, T a1, double a3);

		@Override
		default R applyX(T a1, int a2, double a3) {
			return this.applyIntObjDbl(a2, a1, a3);
		}
	}

	/** Permutation of LObjIntDblFunction for method references. */
	@FunctionalInterface
	interface LIntDblObjFunc extends LObjIntDblFunction {
		@Nullable
		R applyIntDblObj(int a2, double a3, T a1);

		@Override
		default R applyX(T a1, int a2, double a3) {
			return this.applyIntDblObj(a2, a3, a1);
		}
	}

	/** Permutation of LObjIntDblFunction for method references. */
	@FunctionalInterface
	interface LDblObjIntFunc extends LObjIntDblFunction {
		@Nullable
		R applyDblObjInt(double a3, T a1, int a2);

		@Override
		default R applyX(T a1, int a2, double a3) {
			return this.applyDblObjInt(a3, a1, a2);
		}
	}

	/** Permutation of LObjIntDblFunction for method references. */
	@FunctionalInterface
	interface LDblIntObjFunc extends LObjIntDblFunction {
		@Nullable
		R applyDblIntObj(double a3, int a2, T a1);

		@Override
		default R applyX(T a1, int a2, double a3) {
			return this.applyDblIntObj(a3, a2, a1);
		}
	}

	// 

	/** Does nothing (LObjIntDblFunction) Function */
	public static  R produce(T a1, int a2, double a3) {
		return (R) Function4U.defaultObject;
	}

	/** Does nothing (LObjIntDblFunction.LObjDblIntFunc) Function */
	public static  R produce(T a1, double a3, int a2) {
		return (R) Function4U.defaultObject;
	}

	/** Does nothing (LObjIntDblFunction.LIntObjDblFunc) Function */
	public static  R produce(int a2, T a1, double a3) {
		return (R) Function4U.defaultObject;
	}

	/** Does nothing (LObjIntDblFunction.LIntDblObjFunc) Function */
	public static  R produce(int a2, double a3, T a1) {
		return (R) Function4U.defaultObject;
	}

	/** Does nothing (LObjIntDblFunction.LDblObjIntFunc) Function */
	public static  R produce(double a3, T a1, int a2) {
		return (R) Function4U.defaultObject;
	}

	/** Does nothing (LObjIntDblFunction.LDblIntObjFunc) Function */
	public static  R produce(double a3, int a2, T a1) {
		return (R) Function4U.defaultObject;
	}

	/**
	* 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.
	*/
	default  void forEach(IndexedRead> ia1, C1 source1, IndexedRead ia2, C2 source2, IndexedRead ia3, C3 source3, LConsumer consumer) {
		int size = ia1.size(source1);
		LOiFunction oiFunc1 = (LOiFunction) ia1.getter();
		size = Integer.min(size, ia2.size(source2));
		LOiToIntFunction