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oj! Algorithms - ojAlgo - is Open Source Java code that has to do with mathematics, linear algebra and optimisation.
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/*
* Copyright 1997-2025 Optimatika
*
* 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 org.ojalgo.function.aggregator;
import static org.ojalgo.function.constant.PrimitiveMath.*;
import org.ojalgo.function.constant.PrimitiveMath;
import org.ojalgo.scalar.PrimitiveScalar;
import org.ojalgo.scalar.Scalar;
import org.ojalgo.type.context.NumberContext;
public final class PrimitiveAggregator extends AggregatorSet {
static abstract class PrimitiveAggregatorFunction implements AggregatorFunction {
public final Double get() {
return Double.valueOf(this.doubleValue());
}
public final void invoke(final Double arg) {
this.invoke(arg.doubleValue());
}
public final void invoke(final float arg) {
this.invoke((double) arg);
}
public final Scalar toScalar() {
return PrimitiveScalar.of(this.doubleValue());
}
}
private static final ThreadLocal> AVERAGE = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private int myCount = 0;
private double myValue = ZERO;
public double doubleValue() {
return myValue / myCount;
}
public int intValue() {
return (int) this.doubleValue();
}
public void invoke(final double anArg) {
myCount++;
myValue += anArg;
}
public AggregatorFunction reset() {
myCount = 0;
myValue = ZERO;
return this;
}
};
}
};
private static final ThreadLocal> CARDINALITY = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private int myCount = 0;
public double doubleValue() {
return myCount;
}
public int intValue() {
return myCount;
}
public void invoke(final double anArg) {
if (!PrimitiveScalar.isSmall(PrimitiveMath.ONE, anArg)) {
myCount++;
}
}
public AggregatorFunction reset() {
myCount = 0;
return this;
}
};
}
};
private static final ThreadLocal> LARGEST = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private double myValue = ZERO;
public double doubleValue() {
return myValue;
}
public int intValue() {
return (int) this.doubleValue();
}
public void invoke(final double anArg) {
myValue = PrimitiveMath.MAX.invoke(myValue, PrimitiveMath.ABS.invoke(anArg));
}
public AggregatorFunction reset() {
myValue = ZERO;
return this;
}
};
}
};
private static final ThreadLocal> MAX = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private double myValue = NEGATIVE_INFINITY;
public double doubleValue() {
return myValue;
}
public int intValue() {
return (int) this.doubleValue();
}
public void invoke(final double anArg) {
myValue = PrimitiveMath.MAX.invoke(myValue, anArg);
}
public AggregatorFunction reset() {
myValue = NEGATIVE_INFINITY;
return this;
}
};
}
};
private static final ThreadLocal> MIN = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private double myValue = POSITIVE_INFINITY;
public double doubleValue() {
if (Double.isInfinite(myValue)) {
return ZERO;
}
return myValue;
}
public int intValue() {
return (int) this.doubleValue();
}
public void invoke(final double anArg) {
myValue = PrimitiveMath.MIN.invoke(myValue, anArg);
}
public AggregatorFunction reset() {
myValue = POSITIVE_INFINITY;
return this;
}
};
}
};
private static final ThreadLocal> NORM1 = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private double myValue = ZERO;
public double doubleValue() {
return myValue;
}
public int intValue() {
return (int) this.doubleValue();
}
public void invoke(final double anArg) {
myValue += PrimitiveMath.ABS.invoke(anArg);
}
public AggregatorFunction reset() {
myValue = ZERO;
return this;
}
};
}
};
private static final ThreadLocal> NORM2 = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private double myValue = ZERO;
public double doubleValue() {
return PrimitiveMath.SQRT.invoke(myValue);
}
public int intValue() {
return (int) this.doubleValue();
}
public void invoke(final double anArg) {
myValue += anArg * anArg;
}
public AggregatorFunction reset() {
myValue = ZERO;
return this;
}
};
}
};
private static final ThreadLocal> PRODUCT = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private double myValue = ONE;
public double doubleValue() {
return myValue;
}
public int intValue() {
return (int) this.doubleValue();
}
public void invoke(final double anArg) {
myValue *= anArg;
}
public AggregatorFunction reset() {
myValue = ONE;
return this;
}
};
}
};
private static final ThreadLocal> PRODUCT2 = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private double myValue = ONE;
public double doubleValue() {
return myValue;
}
public int intValue() {
return (int) this.doubleValue();
}
public void invoke(final double anArg) {
myValue *= anArg * anArg;
}
public AggregatorFunction reset() {
myValue = ONE;
return this;
}
};
}
};
private static final PrimitiveAggregator SET = new PrimitiveAggregator();
private static final ThreadLocal> SMALLEST = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private double myValue = POSITIVE_INFINITY;
public double doubleValue() {
if (Double.isInfinite(myValue)) {
return ZERO;
}
return myValue;
}
public int intValue() {
return (int) this.doubleValue();
}
public void invoke(final double anArg) {
final double tmpArg = PrimitiveMath.ABS.invoke(anArg);
if (NumberContext.compare(tmpArg, ZERO) != 0) {
myValue = PrimitiveMath.MIN.invoke(myValue, tmpArg);
}
}
public AggregatorFunction reset() {
myValue = POSITIVE_INFINITY;
return this;
}
};
}
};
private static final ThreadLocal> SUM = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private double myValue = ZERO;
public double doubleValue() {
return myValue;
}
public int intValue() {
return (int) this.doubleValue();
}
public void invoke(final double anArg) {
myValue += anArg;
}
public AggregatorFunction reset() {
myValue = ZERO;
return this;
}
};
}
};
private static final ThreadLocal> SUM2 = new ThreadLocal>() {
@Override
protected AggregatorFunction initialValue() {
return new PrimitiveAggregatorFunction() {
private double myValue = ZERO;
public double doubleValue() {
return myValue;
}
public int intValue() {
return (int) this.doubleValue();
}
public void invoke(final double anArg) {
myValue += anArg * anArg;
}
public AggregatorFunction reset() {
myValue = ZERO;
return this;
}
};
}
};
public static PrimitiveAggregator getSet() {
return SET;
}
private PrimitiveAggregator() {
super();
}
@Override
public AggregatorFunction average() {
return AVERAGE.get().reset();
}
@Override
public AggregatorFunction cardinality() {
return CARDINALITY.get().reset();
}
@Override
public AggregatorFunction largest() {
return LARGEST.get().reset();
}
@Override
public AggregatorFunction maximum() {
return MAX.get().reset();
}
@Override
public AggregatorFunction minimum() {
return MIN.get().reset();
}
@Override
public AggregatorFunction norm1() {
return NORM1.get().reset();
}
@Override
public AggregatorFunction norm2() {
return NORM2.get().reset();
}
@Override
public AggregatorFunction product() {
return PRODUCT.get().reset();
}
@Override
public AggregatorFunction product2() {
return PRODUCT2.get().reset();
}
@Override
public AggregatorFunction smallest() {
return SMALLEST.get().reset();
}
@Override
public AggregatorFunction sum() {
return SUM.get().reset();
}
@Override
public AggregatorFunction sum2() {
return SUM2.get().reset();
}
}
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