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DJUTILS statistical and data storage utilities
package org.djutils.stats.summarizers.event;
import java.io.Serializable;
import org.djutils.event.EventType;
import org.djutils.metadata.MetaData;
import org.djutils.metadata.ObjectDescriptor;
/**
* StatisticsEvents defines the standard events for statistics.
*
* Copyright (c) 2020-2024 Delft University of Technology, Jaffalaan 5, 2628 BX Delft, the Netherlands. All rights reserved. See
* for project information https://djutils.org. The DJUTILS project is
* distributed under a three-clause BSD-style license, which can be found at
* https://djutils.org/docs/license.html.
* @author Alexander Verbraeck
* @author Peter Knoppers
*/
public final class StatisticsEvents
{
/** Utility constructor. */
private StatisticsEvents()
{
// Utility constructor
}
/**
* INITIALIZED_EVENT is fired whenever a statistic is (re-)initialized. The event should define the Statistic as the source
* and null as the content.
*/
public static final EventType INITIALIZED_EVENT =
new EventType("INITIALIZED_EVENT", new MetaData("No arguments", "null", new ObjectDescriptor[0]));
/**
* OBSERVATION_ADDED_EVENT is fired whenever an observation is processed. The event should define the Statistic as the
* source and the observation value as the content.
*/
public static final EventType OBSERVATION_ADDED_EVENT =
new EventType("OBSERVATION_ADDED_EVENT", new MetaData("Ingested value", "Ingested Number value",
new ObjectDescriptor("Ingested value", "Ingested Number value", Number.class)));
/**
* WEIGTHED_OBSERVATION_ADDED_EVENT is fired whenever a weighted observation is processed. The event should define the
* Statistic as the source and an Object[] with { weight, observation_value } as the content.
*/
public static final EventType WEIGHTED_OBSERVATION_ADDED_EVENT = new EventType("WEIGHTED_OBSERVATION_ADDED_EVENT",
new MetaData("Weight and value", "Double Weight and Double value",
new ObjectDescriptor[] {new ObjectDescriptor("Weight", "Double weight", Double.class),
new ObjectDescriptor("Value", "Double value", Double.class)}));
/**
* OBSERVATION_ADDED_EVENT is fired whenever an observation is processed. The event should define the Statistic as the
* source and an Object[] with { timestamp, observation_value } as the content. This event is also fired at the end of the
* observations to signal the final values.
*/
public static final EventType TIMESTAMPED_OBSERVATION_ADDED_EVENT = new EventType("TIMESTAMPED_OBSERVATION_ADDED_EVENT",
new MetaData("Time stamp and value", "Time stamp and Double value",
new ObjectDescriptor[] {new ObjectDescriptor("TimeStamp", "Time stamp", Serializable.class),
new ObjectDescriptor("Value", "Double value", Double.class)}));
/* The following statistics are, e.g., used to draw graphs of the development of a statistical value. */
/**
* N_EVENT is fired whenever n is updated. The event should define the Statistic as the source and the current (Long) value
* of n as the content.
*/
public static final EventType N_EVENT = new EventType("N_EVENT", new MetaData("count", "Number of registered events",
new ObjectDescriptor("eventCount", "Long event count", Long.class)));
/**
* COUNT_EVENT is fired whenever there is an observation that potentially updates the count of the Counter. The event should
* define the Statistic as the source and the current (Long) count value as the content.
*/
public static final EventType COUNT_EVENT = new EventType("COUNT_EVENT", new MetaData("count", "Number of registered events",
new ObjectDescriptor("count", "Number of registered events", Long.class)));
/**
* MIN_EVENT is fired whenever there is an observation that potentially updates the lowest observed value of the statistic.
* The event should define the Statistic as the source and the current minimum observed value as the content.
*/
public static final EventType MIN_EVENT = new EventType("MIN_EVENT", new MetaData("Minimum value", "Minimum Double value",
new ObjectDescriptor("Minimum value", "Minimum Double value", Double.class)));
/**
* MAX_EVENT is fired whenever there is an observation that potentially updates the highest observed value of the statistic.
* The event should define the Statistic as the source and the current maximum observed value as the content.
*/
public static final EventType MAX_EVENT = new EventType("MAX_EVENT", new MetaData("Maximum value", "Maximum Double value",
new ObjectDescriptor("Maximum value", "Maximum Double value", Double.class)));
/**
* MEAN_EVENT is fired whenever there is an observation that potentially updates the population mean value of the statistic.
* The event should define the Statistic as the source and the current population mean as the content.
*/
public static final EventType POPULATION_MEAN_EVENT = new EventType("POPULATION_MEAN_EVENT", new MetaData("Mean value",
"Mean Double value", new ObjectDescriptor("Mean value", "Mean Double value", Double.class)));
/**
* VARIANCE_EVENT is fired whenever there is an observation that potentially updates the population variance of the
* statistic. The event should define the Statistic as the source and the current population variance as the content.
*/
public static final EventType POPULATION_VARIANCE_EVENT =
new EventType("POPULATION_VARIANCE_EVENT", new MetaData("Variance value", "Variance Double value",
new ObjectDescriptor("Variance value", "Variance Double value", Double.class)));
/**
* SKEWNESS_EVENT is fired whenever there is an observation that potentially updates the population skewness of the
* statistic. The event should define the Statistic as the source and the current population skewness as the content.
*/
public static final EventType POPULATION_SKEWNESS_EVENT =
new EventType("POPULATION_SKEWNESS_EVENT", new MetaData("Skewness value", "Skewness Double value",
new ObjectDescriptor("Skewness value", "Skewness Double value", Double.class)));
/**
* KURTOSIS_EVENT is fired whenever there is an observation that potentially updates the population kurtosis of the
* statistic. The event should define the Statistic as the source and the current population kurtosis as the content.
*/
public static final EventType POPULATION_KURTOSIS_EVENT =
new EventType("POPULATION_KURTOSIS_EVENT", new MetaData("Kurtosis value", "Kurtosis Double value",
new ObjectDescriptor("Kurtosis value", "Kurtosis Double value", Double.class)));
/**
* EXCESS_KURTOSIS_EVENT is fired whenever there is an observation that potentially updates the population excess kurtosis
* of the statistic. The event should define the Statistic as the source and the current population excess kurtosis as the
* content.
*/
public static final EventType POPULATION_EXCESS_KURTOSIS_EVENT = new EventType("POPULATION_EXCESS_KURTOSIS_EVENT",
new MetaData("Excess kurtosis value", "Excess kurtosis Double value",
new ObjectDescriptor("Excess kurtosis value", "Excess kurtosis Double value", Double.class)));
/**
* STDEV_EVENT is fired whenever there is an observation that potentially updates the population standard deviation of the
* statistic. The event should define the Statistic as the source and the current population standard deviation as the
* content.
*/
public static final EventType POPULATION_STDEV_EVENT = new EventType("POPULATION_STDEV_EVENT", new MetaData("StdDev value",
"StdDev Double value", new ObjectDescriptor("StdDev value", "StdDev Double value", Double.class)));
/**
* SUM_EVENT is fired whenever there is an observation that potentially updates the sum value of the statistic. The event
* should define the Statistic as the source and the current sum as the content.
*/
public static final EventType SUM_EVENT = new EventType("SUM_EVENT",
new MetaData("Sum value", "Sum Double value", new ObjectDescriptor("Sum value", "Sum Double value", Double.class)));
/**
* SAMPLE_MEAN_EVENT is fired whenever there is an observation that potentially updates the sample mean value of the
* statistic. The event should define the Statistic as the source and the current sample mean as the content.
*/
public static final EventType SAMPLE_MEAN_EVENT = new EventType("SAMPLE_MEAN_EVENT", new MetaData("Sample mean value",
"Sample mean Double value", new ObjectDescriptor("Sample mean value", "Sample mean Double value", Double.class)));
/**
* SAMPLE_VARIANCE_EVENT is fired whenever there is an observation that potentially updates the sample variance of the
* statistic. The event should define the Statistic as the source and the current sample variance as the content.
*/
public static final EventType SAMPLE_VARIANCE_EVENT =
new EventType("SAMPLE_VARIANCE_EVENT", new MetaData("Sample variance value", "Sample variance Double value",
new ObjectDescriptor("Sample variance value", "Sample variance Double value", Double.class)));
/**
* SAMPLE_SKEWNESS_EVENT is fired whenever there is an observation that potentially updates the sample skewness of the
* statistic. The event should define the Statistic as the source and the current sample skewness as the content.
*/
public static final EventType SAMPLE_SKEWNESS_EVENT =
new EventType("SAMPLE_SKEWNESS_EVENT", new MetaData("Sample skewness value", "Sample skewness Double value",
new ObjectDescriptor("Sample skewness value", "Sample skewness Double value", Double.class)));
/**
* SAMPLE_KURTOSIS_EVENT is fired whenever there is an observation that potentially updates the sample kurtosis of the
* statistic. The event should define the Statistic as the source and the current sample kurtosis as the content.
*/
public static final EventType SAMPLE_KURTOSIS_EVENT =
new EventType("SAMPLE_KURTOSIS_EVENT", new MetaData("Sample kurtosis value", "Sample kurtosis Double value",
new ObjectDescriptor("sample kurtosis value", "Sample kurtosis Double value", Double.class)));
/**
* SAMPLE_KURTOSIS_EVENT is fired whenever there is an observation that potentially updates the sample excess kurtosis of
* the statistic. The event should define the Statistic as the source and the current sample excess kurtosis as the content.
*/
public static final EventType SAMPLE_EXCESS_KURTOSIS_EVENT = new EventType("SAMPLE_EXCESS_KURTOSIS_EVENT",
new MetaData("Sample excess kurtosis value", "Sample excess kurtosis Double value",
new ObjectDescriptor("Sample excess kurtosis value", "Sample excess kurtosis Double value", Double.class)));
/**
* SAMPLE_STDEV_EVENT is fired whenever there is an observation that potentially updates the sample standard deviation of
* the statistic. The event should define the Statistic as the source and the current sample standard deviation as the
* content.
*/
public static final EventType SAMPLE_STDEV_EVENT =
new EventType("SAMPLE_STDEV_EVENT", new MetaData("Sample stdDev value", "Sample stdDev Double value",
new ObjectDescriptor("Sample stdDev value", "Sample stdDev Double value", Double.class)));
/**
* WEIGHTED_MEAN_EVENT is fired whenever there is an observation that potentially updates the weighted population mean value
* of the statistic. The event should define the Statistic as the source and the current weighted population mean as the
* content.
*/
public static final EventType WEIGHTED_POPULATION_MEAN_EVENT = new EventType("WEIGHTED_POPULATION_MEAN_EVENT", new MetaData(
"Weighted population mean value", "Weighed population mean Double value",
new ObjectDescriptor("Weighted population mean value", "Weighted population mean Double value", Double.class)));
/**
* WEIGHTED_VARIANCE_EVENT is fired whenever there is an observation that potentially updates the weighted population
* variance of the statistic. The event should define the Statistic as the source and the current weighted population
* variance as the content.
*/
public static final EventType WEIGHTED_POPULATION_VARIANCE_EVENT = new EventType("WEIGHTED_POPULATION_VARIANCE_EVENT",
new MetaData("Weighted population variance value", "Weighted population variance Double value",
new ObjectDescriptor("Weighted population variance value", "Weighted population variance Double value",
Double.class)));
/**
* WEIGHTED_STDEV_EVENT is fired whenever there is an observation that potentially updates the weighted population standard
* deviation of the statistic. The event should define the Statistic as the source and the current weighted population
* standard deviation as the content.
*/
public static final EventType WEIGHTED_POPULATION_STDEV_EVENT =
new EventType("WEIGHTED_POPULATION_STDEV_EVENT",
new MetaData("Weighted population stdDev value", "Weighted population stdDev Double value",
new ObjectDescriptor("Weighted population stdDev value", "Weighted population stdDev Double value",
Double.class)));
/**
* WEIGHTED_SUM_EVENT is fired whenever there is an observation that potentially updates the weighted sum value of the
* statistic. The event should define the Statistic as the source and the current weighted sum as the content.
*/
public static final EventType WEIGHTED_SUM_EVENT =
new EventType("WEIGHTED_SUM_EVENT", new MetaData("Weighted sum value", "Weighted sum Double value",
new ObjectDescriptor("Weighted sum value", "Weighted sum Double value", Double.class)));
/**
* WEIGHTED_SAMPLE_MEAN_EVENT is fired whenever there is an observation that potentially updates the weighted sample mean
* value of the statistic. The event should define the Statistic as the source and the current weighted sample mean as the
* content.
*/
public static final EventType WEIGHTED_SAMPLE_MEAN_EVENT = new EventType("WEIGHTED_SAMPLE_MEAN_EVENT",
new MetaData("Weighted sample mean value", "Weighted sample mean Double value",
new ObjectDescriptor("Weighted sample mean value", "Weighted sample mean Double value", Double.class)));
/**
* WEIGHTED_SAMPLE_VARIANCE_EVENT is fired whenever there is an observation that potentially updates the weighted sample
* variance of the statistic. The event should define the Statistic as the source and the current weighted sample variance
* as the content.
*/
public static final EventType WEIGHTED_SAMPLE_VARIANCE_EVENT = new EventType("WEIGHTED_SAMPLE_VARIANCE_EVENT", new MetaData(
"Weighted sample variance value", "Weighted sample variance Double value",
new ObjectDescriptor("Weighted sample variance value", "Weighted sample variance Double value", Double.class)));
/**
* WEIGHTED_SAMPLE_STDEV_EVENT is fired whenever there is an observation that potentially updates the weighted sample
* standard deviation of the statistic. The event should define the Statistic as the source and the current weighted sample
* standard deviation as the content.
*/
public static final EventType WEIGHTED_SAMPLE_STDEV_EVENT = new EventType("WEIGHTED_SAMPLE_STDEV_EVENT",
new MetaData("Weighted sample stdDev value", "Weighted sample stdDev Double value",
new ObjectDescriptor("Weighted sample stdDev value", "Weighted sample stdDev Double value", Double.class)));
/* ********************* TIMESTANPED VERSIONS OF EVENTS FOR THE TIMESTAMPWEIGHTEDTALLY ************************ */
/**
* TIMED_N_EVENT is fired whenever n is updated. The event should define the Statistic as the source and the current (Long)
* value of n as the content.
*/
public static final EventType TIMED_N_EVENT = new EventType("TIMED_N_EVENT", new MetaData("count",
"Number of registered events", new ObjectDescriptor("eventCount", "Long event count", Long.class)));
/**
* TIMED_MIN_EVENT is fired whenever there is an observation that potentially updates the lowest observed value of the
* statistic. The event should define the Statistic as the source and the current minimum observed value as the content.
*/
public static final EventType TIMED_MIN_EVENT = new EventType("TIMED_MIN_EVENT", new MetaData("Minimum value",
"Minimum Double value", new ObjectDescriptor("Minimum value", "Minimum Double value", Double.class)));
/**
* TIMED_MAX_EVENT is fired whenever there is an observation that potentially updates the highest observed value of the
* statistic. The event should define the Statistic as the source and the current maximum observed value as the content.
*/
public static final EventType TIMED_MAX_EVENT = new EventType("TIMED_MAX_EVENT", new MetaData("Maximum value",
"Maximum Double value", new ObjectDescriptor("Maximum value", "Maximum Double value", Double.class)));
/**
* TIMED_WEIGHTED_MEAN_EVENT is fired whenever there is an observation that potentially updates the weighted population mean
* value of the statistic. The event should define the Statistic as the source and the current weighted population mean as
* the content.
*/
public static final EventType TIMED_WEIGHTED_POPULATION_MEAN_EVENT = new EventType("TIMED_WEIGHTED_POPULATION_MEAN_EVENT",
new MetaData("Weighted population mean value", "Weighed population mean Double value", new ObjectDescriptor(
"Weighted population mean value", "Weighted population mean Double value", Double.class)));
/**
* TIMED_WEIGHTED_VARIANCE_EVENT is fired whenever there is an observation that potentially updates the weighted population
* variance of the statistic. The event should define the Statistic as the source and the current weighted population
* variance as the content.
*/
public static final EventType TIMED_WEIGHTED_POPULATION_VARIANCE_EVENT =
new EventType("TIMED_WEIGHTED_POPULATION_VARIANCE_EVENT",
new MetaData("Weighted population variance value", "Weighted population variance Double value",
new ObjectDescriptor("Weighted population variance value",
"Weighted population variance Double value", Double.class)));
/**
* TIMED_WEIGHTED_STDEV_EVENT is fired whenever there is an observation that potentially updates the weighted population
* standard deviation of the statistic. The event should define the Statistic as the source and the current weighted
* population standard deviation as the content.
*/
public static final EventType TIMED_WEIGHTED_POPULATION_STDEV_EVENT =
new EventType("TIMED_WEIGHTED_POPULATION_STDEV_EVENT",
new MetaData("Weighted population stdDev value", "Weighted population stdDev Double value",
new ObjectDescriptor("Weighted population stdDev value", "Weighted population stdDev Double value",
Double.class)));
/**
* TIMED_WEIGHTED_SUM_EVENT is fired whenever there is an observation that potentially updates the weighted sum value of the
* statistic. The event should define the Statistic as the source and the current weighted sum as the content.
*/
public static final EventType TIMED_WEIGHTED_SUM_EVENT =
new EventType("TIMED_WEIGHTED_SUM_EVENT", new MetaData("Weighted sum value", "Weighted sum Double value",
new ObjectDescriptor("Weighted sum value", "Weighted sum Double value", Double.class)));
/**
* TIMED_WEIGHTED_SAMPLE_MEAN_EVENT is fired whenever there is an observation that potentially updates the weighted sample
* mean value of the statistic. The event should define the Statistic as the source and the current weighted sample mean as
* the content.
*/
public static final EventType TIMED_WEIGHTED_SAMPLE_MEAN_EVENT = new EventType("TIMED_WEIGHTED_SAMPLE_MEAN_EVENT",
new MetaData("Weighted sample mean value", "Weighted sample mean Double value",
new ObjectDescriptor("Weighted sample mean value", "Weighted sample mean Double value", Double.class)));
/**
* TIMED_WEIGHTED_SAMPLE_VARIANCE_EVENT is fired whenever there is an observation that potentially updates the weighted
* sample variance of the statistic. The event should define the Statistic as the source and the current weighted sample
* variance as the content.
*/
public static final EventType TIMED_WEIGHTED_SAMPLE_VARIANCE_EVENT =
new EventType("TIMED_WEIGHTED_SAMPLE_VARIANCE_EVENT",
new MetaData("Weighted sample variance value", "Weighted sample variance Double value",
new ObjectDescriptor("Weighted sample variance value", "Weighted sample variance Double value",
Double.class)));
/**
* TIMED_WEIGHTED_SAMPLE_STDEV_EVENT is fired whenever there is an observation that potentially updates the weighted sample
* standard deviation of the statistic. The event should define the Statistic as the source and the current weighted sample
* standard deviation as the content.
*/
public static final EventType TIMED_WEIGHTED_SAMPLE_STDEV_EVENT = new EventType("TIMED_WEIGHTED_SAMPLE_STDEV_EVENT",
new MetaData("Weighted sample stdDev value", "Weighted sample stdDev Double value",
new ObjectDescriptor("Weighted sample stdDev value", "Weighted sample stdDev Double value", Double.class)));
}