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I consider an ActivePivot 4 cube to compute CVA (Credit Value Adjustment). As it handles 500k trades, each of them being associated to 1M floats, I need to change the storage type between the indexer and my cubes.

The main measure is then a primitive arrays of numbers. I would like to store them as float[] in the indexer (then, I'll have a smaller memory footprint) and consider double[] in the cubes (then I'll have high-precision aggregates).

How can I achive this wihtout recoding the whole aggregation process?

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2 Answers 2

The aggregation functions in ActivePivot are extendible. Out of the box you get the usual set SUM, MIN, MAX, AVG, LONG, SHORT... but you can write your own in Java. The simplest way to do that is by extending the com.quartetfs.biz.pivot.aggfun.impl.GenericAggregationFunction abstract class, that has most of the boilerplate code covered.

ActivePivot distinguishes the input values from the aggregates so that you can declare float[] for the input values and double[] for the aggregate type. Example below:

/*
 * (C) Quartet FS 2012
 * ALL RIGHTS RESERVED. This material is the CONFIDENTIAL and PROPRIETARY
 * property of Quartet Financial Systems Limited. Any unauthorized use,
 * reproduction or transfer of this material is strictly prohibited
 */
package com.quartetfs.biz.pivot.aggfun.impl;

import java.util.Arrays;

import com.quartetfs.fwk.QuartetPluginValue;
import com.quartetfs.fwk.Registry;
import com.quartetfs.tech.type.IDataType;

/**
 * A variant of the SUM aggregation function that sums
 * input vectors of single precision floats but performs
 * computations and maintains aggregates in double precision.
 * 
 * 
 * @author Quartet FS
 */
@QuartetPluginValue(interfaceName = "com.quartetfs.biz.pivot.aggfun.IAggregationFunction")
public class DoublePrecisionVectorSum extends GenericAggregationFunction<double[], float[]> {

    /**
     * Constructor<br>
     * Register a key for the function, and the data type of the aggregates.
     */
    public DoublePrecisionVectorSum() {
        super("DPVSUM", Registry.getPlugin(IDataType.class).valueOf("double[]"));
    }

    /** serialVersionUID */
    private static final long serialVersionUID = 5607526097059339967L;

    @Override
    public String description() {
        return "Aggregates arrays of float with double precision";
    }

    @Override
    protected double[] aggregate(boolean removal, double[] aggregate, float[] inputValue) {
        if(aggregate == null) {
            aggregate = new double[inputValue.length];
            for(int i = 0; i < inputValue.length; i++) {
                aggregate[i] = inputValue[i];
            }
            return aggregate;
        } else if(aggregate.length != inputValue.length) {
            throw new IllegalStateException("Aggregating vectors of different length: " + aggregate.length + ", " + inputValue.length);
        } else {
            if(removal) {
                for(int i = 0; i < inputValue.length; i++) {
                    aggregate[i] -= inputValue[i];
                }
            } else {
                for(int i = 0; i < inputValue.length; i++) {
                    aggregate[i] += inputValue[i];
                }
            }
            return aggregate;
        }
    }

    @Override
    protected double[] merge(boolean removal, double[] mainAggregate, double[] contributedAggregate) {
        if(mainAggregate == null) {
            mainAggregate = new double[contributedAggregate.length];
            for(int i = 0; i < contributedAggregate.length; i++) {
                mainAggregate[i] = contributedAggregate[i];
            }
            return mainAggregate;
        } else if(mainAggregate.length != contributedAggregate.length) {
            throw new IllegalStateException("Aggregating vectors of different length: " + mainAggregate.length + ", " + contributedAggregate.length);
        } else {
            if(removal) {
                for(int i = 0; i < contributedAggregate.length; i++) {
                    mainAggregate[i] -= contributedAggregate[i];
                }
            } else {
                for(int i = 0; i < contributedAggregate.length; i++) {
                    mainAggregate[i] += contributedAggregate[i];
                }
            }
            return mainAggregate;
        }
    }

    @Override
    protected double[] cloneAggregate(double[] aggregate) {
        return aggregate == null ? null : Arrays.copyOf(aggregate, aggregate.length);
    }

}
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This class is really nice, but in case of a 1 point per fact cube (which is the case in the trade level CVA cubes), it won't prevent copying the float[] array to double[]. Based on your code, I'll provide a class preventing this in a few days. –  bla Sep 24 '12 at 7:52
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up vote 1 down vote accepted

Here is an implementation based on Killerchamp proposition, but which maintain float[] in memory for 1fact-1point cubes.

package com.quartetfs.biz.pivot.aggfun.impl;

import com.quartetfs.fwk.QuartetPluginValue;
import com.quartetfs.fwk.Registry;
import com.quartetfs.tech.type.IDataType;

/**
 * A variant of the SUM aggregation function that sums input vectors of single
 * precision floats but performs computations and maintains aggregates in double
 * precision.
 * 
 * 
 * @author Quartet FS
 */
@QuartetPluginValue(interfaceName = "com.quartetfs.biz.pivot.aggfun.IAggregationFunction")
public class DoublePrecisionVectorSum extends GenericAggregationFunction<Object, float[]> {
    private static final long serialVersionUID = 5607526097059339967L;

    /**
     * Constructor<br>
     * Register a key for the function, and the data type of the aggregates.
     */
    @SuppressWarnings("unchecked")
    public DoublePrecisionVectorSum() {
        super("DPVSUM", Registry.getPlugin(IDataType.class).valueOf("double[]"));
    }

    @Override
    public String description() {
        return "Aggregates arrays of float with double precision";
    }

    @Override
    protected Object aggregate(boolean removal, Object aggregate, float[] inputValue) {
        if (aggregate == null) {
            // We keep the float[] if possible
            return inputValue;
        } else {
            return merge(removal, aggregate, inputValue);
        }
    }

    @Override
    protected Object merge(boolean removal, Object mainAggregate, Object contributedAggregate) {
        if (mainAggregate == null) {
            // We need to clone as contributedAggregate is read-only
            return cloneAggregate(contributedAggregate);
        } else {
            // Convert mainAggregate to double[]
            double[] mainAggregateAsDouble;
            {
                if (mainAggregate instanceof float[]) {
                    float[] asFloat = (float[]) mainAggregate;

                    mainAggregateAsDouble = new double[asFloat.length];

                    for (int i = 0; i < asFloat.length; i++) {
                        mainAggregateAsDouble[i] = asFloat[i];
                    }

                } else if (mainAggregate instanceof double[]) {
                    mainAggregateAsDouble = (double[]) mainAggregate;
                } else {
                    throw new RuntimeException("Unexpected type: " + mainAggregate.getClass());
                }
            }

            // Do the aggregation
            if (contributedAggregate instanceof float[]) {
                float[] contributedAggregateAsFloat = (float[]) contributedAggregate;

                if (mainAggregateAsDouble.length != contributedAggregateAsFloat.length) {
                    throw new IllegalStateException("Aggregating vectors of different length: " + mainAggregateAsDouble.length + ", "
                            + contributedAggregateAsFloat.length);
                } else {
                    if (removal) {
                        for (int i = 0; i < contributedAggregateAsFloat.length; i++) {
                            mainAggregateAsDouble[i] -= contributedAggregateAsFloat[i];
                        }
                    } else {
                        for (int i = 0; i < contributedAggregateAsFloat.length; i++) {
                            mainAggregateAsDouble[i] += contributedAggregateAsFloat[i];
                        }
                    }
                    return mainAggregateAsDouble;
                }

            } else if (contributedAggregate instanceof double[]) {
                double[] contributedAggregateAsDouble = (double[]) contributedAggregate;

                if (mainAggregateAsDouble.length != contributedAggregateAsDouble.length) {
                    throw new IllegalStateException("Aggregating vectors of different length: " + mainAggregateAsDouble.length + ", "
                            + contributedAggregateAsDouble.length);
                } else {
                    if (removal) {
                        for (int i = 0; i < contributedAggregateAsDouble.length; i++) {
                            mainAggregateAsDouble[i] -= contributedAggregateAsDouble[i];
                        }
                    } else {
                        for (int i = 0; i < contributedAggregateAsDouble.length; i++) {
                            mainAggregateAsDouble[i] += contributedAggregateAsDouble[i];
                        }
                    }
                    return mainAggregateAsDouble;
                }
            } else {
                throw new RuntimeException("Unexpected type: " + contributedAggregate.getClass());
            }

        }
    }

    @Override
    protected Object cloneAggregate(Object aggregate) {
        if (aggregate == null) {
            return null;
        } else if (aggregate instanceof float[]) {
            // As we consider an aggregate, we should convert this to double[]
            // as it will be necessary at some point
            float[] asFloat = (float[]) aggregate;

            double[] asDouble = new double[asFloat.length];

            for (int i = 0; i < asFloat.length; i++) {
                asDouble[i] = asFloat[i];
            }
            return asDouble;
        } else if (aggregate instanceof double[]) {
            double[] asDouble = (double[]) aggregate;
            return asDouble.clone();
        } else {
            throw new RuntimeException("Unexpected type: " + aggregate.getClass());
        }
    }

}
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