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The module for FunctionalJ Core.
// ============================================================================
// Copyright (c) 2017-2019 Nawapunth Manusitthipol (NawaMan - http://nawaman.net).
// ----------------------------------------------------------------------------
// MIT License
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
// SOFTWARE.
// ============================================================================
package functionalj.lens.lenses;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.util.function.BiFunction;
import java.util.function.Function;
import java.util.function.Supplier;
import functionalj.function.Func;
import functionalj.lens.core.AccessCreator;
import functionalj.result.Result;
import functionalj.tuple.Tuple2;
import lombok.val;
@SuppressWarnings("javadoc")
public interface NumberAccess, NUMACCESS extends NumberAccess>
extends ComparableAccess {
public default IntegerAccess compareTo(TYPE anotherValue) {
return intAccess(Integer.MIN_VALUE, any -> any.compareTo(anotherValue));
}
public default BooleanAccess thatGreaterThan(TYPE anotherValue) {
return booleanAccess(false, any -> any.compareTo(anotherValue) > 0);
}
public default BooleanAccess thatLessThan(TYPE anotherValue) {
return booleanAccess(false, any -> any.compareTo(anotherValue) < 0);
}
public default BooleanAccess thatGreaterThanOrEqualsTo(TYPE anotherValue) {
return booleanAccess(false, any -> any.compareTo(anotherValue) >= 0);
}
public default BooleanAccess thatLessThanOrEqualsTo(TYPE anotherValue) {
return booleanAccess(false, any -> any.compareTo(anotherValue) <= 0);
}
public default BooleanAccess thatIsZero() {
return (BooleanAccess)(host -> {
val value = apply(host);
val zero = toZero().apply(host);
return value.compareTo(zero) == 0;
});
}
public default BooleanAccess thatIsNotZero() {
return (BooleanAccess)(host -> {
val value = apply(host);
val zero = toZero().apply(host);
return value.compareTo(zero) != 0;
});
}
public default BooleanAccess thatIsPositive() {
return (BooleanAccess)(host -> {
val value = apply(host);
val zero = toZero().apply(host);
return value.compareTo(zero) > 0;
});
}
public default BooleanAccess thatIsNegative() {
return (BooleanAccess)(host -> {
val value = apply(host);
val zero = toZero().apply(host);
return value.compareTo(zero) < 0;
});
}
public default BooleanAccess thatIsNotPositive() {
return (BooleanAccess)(host -> {
val value = apply(host);
val zero = toZero().apply(host);
return value.compareTo(zero) <= 0;
});
}
public default BooleanAccess thatIsNotNegative() {
return (BooleanAccess)(host -> {
val value = apply(host);
val zero = toZero().apply(host);
return value.compareTo(zero) >= 0;
});
}
public NUMACCESS newAccess(Function accessToValue);
public MathOperators __mathOperators();
public static interface MathOperators {
public NUMBER zero();
public NUMBER one();
public NUMBER minusOne();
public Integer toInteger(NUMBER number);
public Long toLong(NUMBER number);
public Double toDouble(NUMBER number);
public BigInteger toBigInteger(NUMBER number);
public BigDecimal toBigDecimal(NUMBER number);
public NUMBER add(NUMBER number1, NUMBER number2);
public NUMBER subtract(NUMBER number1, NUMBER number2);
public NUMBER multiply(NUMBER number1, NUMBER number2);
public NUMBER divide(NUMBER number1, NUMBER number2);
public NUMBER remainder(NUMBER number1, NUMBER number2);
public Tuple2 divideAndRemainder(NUMBER number, NUMBER divisor);
public NUMBER pow(NUMBER number, NUMBER n);
public NUMBER abs(NUMBER number);
public NUMBER negate(NUMBER number);
public NUMBER signum(NUMBER number);
public NUMBER min(NUMBER number1, NUMBER number2);
public NUMBER max(NUMBER number1, NUMBER number2);
}
public default IntegerAccess toInteger() {
return intAccess(0, __mathOperators()::toInteger);
}
public default LongAccess toLong() {
return longAccess(0L, __mathOperators()::toLong);
}
public default DoubleAccess toDouble() {
return doubleAccess(0.0, __mathOperators()::toDouble);
}
public default BigIntegerAccess toBigInteger() {
return bigIntegerAccess(BigInteger.ZERO, __mathOperators()::toBigInteger);
}
public default BigDecimalAccess toBigDecimal() {
return bigDecimalAccess(BigDecimal.ZERO, __mathOperators()::toBigDecimal);
}
public default ResultAccess> asInteger() {
return ResultAccess.of(host -> {
val value = apply(host);
return Result.from(()->__mathOperators().toInteger(value));
}, func -> (IntegerAccess)(func::apply));
}
public default ResultAccess> asLong() {
return ResultAccess.of(host -> {
val value = apply(host);
return Result.from(()->__mathOperators().toLong(value));
}, func -> (LongAccess)(func::apply));
}
public default ResultAccess> asDouble() {
return ResultAccess.of(host -> {
val value = apply(host);
return Result.from(()->__mathOperators().toDouble(value));
}, func -> (DoubleAccess)(func::apply));
}
public default ResultAccess> asBigInteger() {
return ResultAccess.of(host -> {
val value = apply(host);
return Result.from(()->__mathOperators().toBigInteger(value));
}, func -> (BigIntegerAccess)(func::apply));
}
public default ResultAccess> asBigDecimal() {
return ResultAccess.of(host -> {
val value = apply(host);
return Result.from(()->__mathOperators().toBigDecimal(value));
}, func -> (BigDecimalAccess)(func::apply));
}
// TODO -- These __operate should be moved to a util class.
public default NUMACCESS __operate(
AccessCreator accessCreator,
Supplier operator) {
return accessCreator.newAccess(host -> {
return operator.get();
});
}
public default NUMACCESS __operate(
TYPE value,
NUMACCESS orgAccess,
AccessCreator accessCreator,
BiFunction operator) {
return accessCreator.newAccess(host -> {
if (host == null)
return value;
val v = orgAccess.apply(host);
return operator.apply(v, value);
});
}
public default NUMACCESS __operate(
TYPE fallbackValue,
Supplier valueSupplier,
NUMACCESS orgAccess,
AccessCreator accessCreator,
BiFunction operator) {
return accessCreator.newAccess(host -> {
if (host == null)
return Func.getOrElse(valueSupplier, fallbackValue);
val v = orgAccess.apply(host);
val value = Func.getOrElse(valueSupplier, fallbackValue);
return operator.apply(v, value);
});
}
public default NUMACCESS __operate(
TYPE fallbackValue,
Function valueFunction,
NUMACCESS orgAccess,
AccessCreator accessCreator,
BiFunction operator) {
return accessCreator.newAccess(host -> {
if (host == null)
return Func.applyOrElse(valueFunction, fallbackValue, fallbackValue);
val v = orgAccess.apply(host);
val value = Func.applyOrElse(valueFunction, v, fallbackValue);
return operator.apply(v, value);
});
}
public default NUMACCESS __operate(
TYPE fallbackValue,
BiFunction valueFunction,
NUMACCESS orgAccess,
AccessCreator accessCreator,
BiFunction operator) {
return accessCreator.newAccess(host -> {
if (host == null)
return Func.applyOrElse(valueFunction, host, fallbackValue, fallbackValue);
val v = orgAccess.apply(host);
val value = Func.applyOrElse(valueFunction, host, v, fallbackValue);
return operator.apply(v, value);
});
}
public default NUMACCESS toZero() {
return __operate(this::newAccess, __mathOperators()::zero);
}
public default NUMACCESS toOne() {
return __operate(this::newAccess, __mathOperators()::one);
}
public default NUMACCESS toMinusOne() {
return __operate(this::newAccess, __mathOperators()::minusOne);
}
@SuppressWarnings("unchecked")
public default NUMACCESS add(TYPE value) {
return __operate(value, (NUMACCESS)this, this::newAccess, __mathOperators()::add);
}
@SuppressWarnings("unchecked")
public default NUMACCESS add(Supplier valueSupplier) {
return __operate(__mathOperators().zero(), valueSupplier, (NUMACCESS)this, this::newAccess, __mathOperators()::add);
}
@SuppressWarnings("unchecked")
public default NUMACCESS add(Function valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::add);
}
@SuppressWarnings("unchecked")
public default NUMACCESS add(BiFunction valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::add);
}
@SuppressWarnings("unchecked")
public default NUMACCESS subtract(TYPE value) {
return __operate(value, (NUMACCESS)this, this::newAccess, __mathOperators()::subtract);
}
@SuppressWarnings("unchecked")
public default NUMACCESS subtract(Supplier valueSupplier) {
return __operate(__mathOperators().zero(), valueSupplier, (NUMACCESS)this, this::newAccess, __mathOperators()::subtract);
}
@SuppressWarnings("unchecked")
public default NUMACCESS subtract(Function valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::subtract);
}
@SuppressWarnings("unchecked")
public default NUMACCESS subtract(BiFunction valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::subtract);
}
@SuppressWarnings("unchecked")
public default NUMACCESS multiply(TYPE value) {
return __operate(value, (NUMACCESS)this, this::newAccess, __mathOperators()::multiply);
}
@SuppressWarnings("unchecked")
public default NUMACCESS multiply(Supplier valueSupplier) {
return __operate(__mathOperators().zero(), valueSupplier, (NUMACCESS)this, this::newAccess, __mathOperators()::multiply);
}
@SuppressWarnings("unchecked")
public default NUMACCESS multiply(Function valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::multiply);
}
@SuppressWarnings("unchecked")
public default NUMACCESS multiply(BiFunction valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::multiply);
}
@SuppressWarnings("unchecked")
public default NUMACCESS divide(TYPE value) {
return __operate(value, (NUMACCESS)this, this::newAccess, __mathOperators()::divide);
}
@SuppressWarnings("unchecked")
public default NUMACCESS divide(Supplier valueSupplier) {
return __operate(__mathOperators().zero(), valueSupplier, (NUMACCESS)this, this::newAccess, __mathOperators()::divide);
}
@SuppressWarnings("unchecked")
public default NUMACCESS divide(Function valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::divide);
}
@SuppressWarnings("unchecked")
public default NUMACCESS divide(BiFunction valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::divide);
}
@SuppressWarnings("unchecked")
public default NUMACCESS remainder(TYPE value) {
return __operate(value, (NUMACCESS)this, this::newAccess, __mathOperators()::remainder);
}
@SuppressWarnings("unchecked")
public default NUMACCESS remainder(Supplier valueSupplier) {
return __operate(__mathOperators().zero(), valueSupplier, (NUMACCESS)this, this::newAccess, __mathOperators()::remainder);
}
@SuppressWarnings("unchecked")
public default NUMACCESS remainder(Function valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::remainder);
}
@SuppressWarnings("unchecked")
public default NUMACCESS remainder(BiFunction valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::remainder);
}
@SuppressWarnings("unchecked")
public default NUMACCESS mod(TYPE value) {
return __operate(value, (NUMACCESS)this, this::newAccess, __mathOperators()::remainder);
}
@SuppressWarnings("unchecked")
public default NUMACCESS mod(Supplier valueSupplier) {
return __operate(__mathOperators().zero(), valueSupplier, (NUMACCESS)this, this::newAccess, __mathOperators()::remainder);
}
@SuppressWarnings("unchecked")
public default NUMACCESS mod(Function valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::remainder);
}
@SuppressWarnings("unchecked")
public default NUMACCESS mod(BiFunction valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::remainder);
}
// public BigDecimal[] divideAndRemainder(BigDecimal divisor); -- Tuple
@SuppressWarnings("unchecked")
public default NUMACCESS pow(TYPE value) {
return __operate(value, (NUMACCESS)this, this::newAccess, __mathOperators()::pow);
}
@SuppressWarnings("unchecked")
public default NUMACCESS pow(Supplier valueSupplier) {
return __operate(__mathOperators().zero(), valueSupplier, (NUMACCESS)this, this::newAccess, __mathOperators()::pow);
}
@SuppressWarnings("unchecked")
public default NUMACCESS pow(Function valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::pow);
}
@SuppressWarnings("unchecked")
public default NUMACCESS pow(BiFunction valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::pow);
}
public default NUMACCESS abs() {
return newAccess(host -> {
if (host == null)
return __mathOperators().zero();
val v = apply(host);
return __mathOperators().abs(v);
});
}
public default NUMACCESS negate() {
return newAccess(host -> {
if (host == null)
return __mathOperators().zero();
val v = apply(host);
return __mathOperators().negate(v);
});
}
public default NUMACCESS signum() {
return newAccess(host -> {
if (host == null)
return __mathOperators().zero();
val v = apply(host);
return __mathOperators().signum(v);
});
}
@SuppressWarnings("unchecked")
public default NUMACCESS min(TYPE value) {
return __operate(value, (NUMACCESS)this, this::newAccess, __mathOperators()::min);
}
@SuppressWarnings("unchecked")
public default NUMACCESS min(Supplier valueSupplier) {
return __operate(__mathOperators().zero(), valueSupplier, (NUMACCESS)this, this::newAccess, __mathOperators()::min);
}
@SuppressWarnings("unchecked")
public default NUMACCESS min(Function valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::min);
}
@SuppressWarnings("unchecked")
public default NUMACCESS min(BiFunction valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::min);
}
@SuppressWarnings("unchecked")
public default NUMACCESS max(TYPE value) {
return __operate(value, (NUMACCESS)this, this::newAccess, __mathOperators()::max);
}
@SuppressWarnings("unchecked")
public default NUMACCESS max(Supplier valueSupplier) {
return __operate(__mathOperators().zero(), valueSupplier, (NUMACCESS)this, this::newAccess, __mathOperators()::max);
}
@SuppressWarnings("unchecked")
public default NUMACCESS max(Function valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::max);
}
@SuppressWarnings("unchecked")
public default NUMACCESS max(BiFunction valueFunction) {
return __operate(__mathOperators().zero(), valueFunction, (NUMACCESS)this, this::newAccess, __mathOperators()::max);
}
}