org.osgi.util.measurement.Measurement Maven / Gradle / Ivy
Show all versions of hello-world-plugin Show documentation
/*
* Copyright (c) OSGi Alliance (2002, 2013). All Rights Reserved.
*
* 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 org.osgi.util.measurement;
/**
* Represents a value with an error, a unit and a time-stamp.
*
*
* A {@code Measurement} object is used for maintaining the tuple of value,
* error, unit and time-stamp. The value and error are represented as doubles
* and the time is measured in milliseconds since midnight, January 1, 1970 UTC.
*
*
* Mathematic methods are provided that correctly calculate taking the error
* into account. A runtime error will occur when two measurements are used in an
* incompatible way. E.g., when a speed (m/s) is added to a distance (m). The
* measurement class will correctly track changes in unit during multiplication
* and division, always coercing the result to the most simple form. See
* {@link Unit} for more information on the supported units.
*
*
* Errors in the measurement class are absolute errors. Measurement errors
* should use the P95 rule. Actual values must fall in the range value +/- error
* 95% or more of the time.
*
*
* A {@code Measurement} object is immutable in order to be easily shared.
*
*
* Note: This class has a natural ordering that is inconsistent with equals. See
* {@link #compareTo(Object)}.
*
* @Immutable
* @author $Id: 5d6be0f87b34d62ad5671e13710ef52ea36abf0c $
*/
public class Measurement implements Comparable {
private final double value;
private final double error;
private final long time;
private final Unit unit;
private transient String name;
private transient int hashCode;
/**
* Create a new {@code Measurement} object.
*
* @param value The value of the {@code Measurement}.
* @param error The error of the {@code Measurement}.
* @param unit The {@code Unit} object in which the value is measured. If
* this argument is {@code null}, then the unit will be set to
* {@link Unit#unity}.
* @param time The time measured in milliseconds since midnight, January 1,
* 1970 UTC.
*/
public Measurement(double value, double error, Unit unit, long time) {
this.value = value;
this.error = Math.abs(error);
this.unit = (unit != null) ? unit : Unit.unity;
this.time = time;
name = null;
hashCode = 0;
}
/**
* Create a new {@code Measurement} object with a time of zero.
*
* @param value The value of the {@code Measurement}.
* @param error The error of the {@code Measurement}.
* @param unit The {@code Unit} object in which the value is measured. If
* this argument is {@code null}, then the unit will be set to
* {@link Unit#unity}.
*/
public Measurement(double value, double error, Unit unit) {
this(value, error, unit, 0l);
}
/**
* Create a new {@code Measurement} object with an error of 0.0 and a time
* of zero.
*
* @param value The value of the {@code Measurement}.
* @param unit The {@code Unit} in which the value is measured. If this
* argument is {@code null}, then the unit will be set to
* {@link Unit#unity}.
*/
public Measurement(double value, Unit unit) {
this(value, 0.0d, unit, 0l);
}
/**
* Create a new {@code Measurement} object with an error of 0.0, a unit of
* {@link Unit#unity} and a time of zero.
*
* @param value The value of the {@code Measurement}.
*/
public Measurement(double value) {
this(value, 0.0d, null, 0l);
}
/**
* Returns the value of this {@code Measurement} object.
*
* @return The value of this {@code Measurement} object as a double.
*/
public final double getValue() {
return value;
}
/**
* Returns the error of this {@code Measurement} object. The error is always
* a positive value.
*
* @return The error of this {@code Measurement} as a double.
*/
public final double getError() {
return error;
}
/**
* Returns the {@code Unit} object of this {@code Measurement} object.
*
* @return The {@code Unit} object of this {@code Measurement} object.
*
* @see Unit
*/
public final Unit getUnit() {
return unit;
}
/**
* Returns the time at which this {@code Measurement} object was taken. The
* time is measured in milliseconds since midnight, January 1, 1970 UTC, or
* zero when not defined.
*
* @return The time at which this {@code Measurement} object was taken or
* zero.
*/
public final long getTime() {
return time;
}
/**
* Returns a new {@code Measurement} object that is the product of this
* object multiplied by the specified object.
*
* @param m The {@code Measurement} object that will be multiplied with this
* object.
* @return A new {@code Measurement} that is the product of this object
* multiplied by the specified object. The error and unit of the new
* object are computed. The time of the new object is set to the
* time of this object.
* @throws ArithmeticException If the {@code Unit} objects of this object
* and the specified object cannot be multiplied.
* @see Unit
*/
public Measurement mul(Measurement m) {
double mvalue = m.value;
return new Measurement(value * mvalue, Math.abs(value) * m.error + error * Math.abs(mvalue), unit.mul(m.unit), time);
}
/**
* Returns a new {@code Measurement} object that is the product of this
* object multiplied by the specified value.
*
* @param d The value that will be multiplied with this object.
* @param u The {@code Unit} of the specified value.
* @return A new {@code Measurement} object that is the product of this
* object multiplied by the specified value. The error and unit of
* the new object are computed. The time of the new object is set to
* the time of this object.
* @throws ArithmeticException If the units of this object and the specified
* value cannot be multiplied.
* @see Unit
*/
public Measurement mul(double d, Unit u) {
return new Measurement(value * d, error * Math.abs(d), unit.mul(u), time);
}
/**
* Returns a new {@code Measurement} object that is the product of this
* object multiplied by the specified value.
*
* @param d The value that will be multiplied with this object.
* @return A new {@code Measurement} object that is the product of this
* object multiplied by the specified value. The error of the new
* object is computed. The unit and time of the new object is set to
* the unit and time of this object.
*/
public Measurement mul(double d) {
return new Measurement(value * d, error * Math.abs(d), unit, time);
}
/**
* Returns a new {@code Measurement} object that is the quotient of this
* object divided by the specified object.
*
* @param m The {@code Measurement} object that will be the divisor of this
* object.
* @return A new {@code Measurement} object that is the quotient of this
* object divided by the specified object. The error and unit of the
* new object are computed. The time of the new object is set to the
* time of this object.
* @throws ArithmeticException If the {@code Unit} objects of this object
* and the specified object cannot be divided.
* @see Unit
*/
public Measurement div(Measurement m) {
double mvalue = m.value;
return new Measurement(value / mvalue, (Math.abs(value) * m.error + error * Math.abs(mvalue)) / (mvalue * mvalue), unit.div(m.unit), time);
}
/**
* Returns a new {@code Measurement} object that is the quotient of this
* object divided by the specified value.
*
* @param d The value that will be the divisor of this object.
* @param u The {@code Unit} object of the specified value.
* @return A new {@code Measurement} that is the quotient of this object
* divided by the specified value. The error and unit of the new
* object are computed. The time of the new object is set to the
* time of this object.
* @throws ArithmeticException If the {@code Unit} objects of this object
* and the specified object cannot be divided.
* @see Unit
*/
public Measurement div(double d, Unit u) {
return new Measurement(value / d, error / Math.abs(d), unit.div(u), time);
}
/**
* Returns a new {@code Measurement} object that is the quotient of this
* object divided by the specified value.
*
* @param d The value that will be the divisor of this object.
* @return A new {@code Measurement} object that is the quotient of this
* object divided by the specified value. The error of the new
* object is computed. The unit and time of the new object is set to
* the {@code Unit} and time of this object.
*/
public Measurement div(double d) {
return new Measurement(value / d, error / Math.abs(d), unit, time);
}
/**
* Returns a new {@code Measurement} object that is the sum of this object
* added to the specified object.
*
* The error and unit of the new object are computed. The time of the new
* object is set to the time of this object.
*
* @param m The {@code Measurement} object that will be added with this
* object.
* @return A new {@code Measurement} object that is the sum of this and m.
* @see Unit
* @throws ArithmeticException If the {@code Unit} objects of this object
* and the specified object cannot be added.
*/
public Measurement add(Measurement m) {
return new Measurement(value + m.value, error + m.error, unit.add(m.unit), time);
}
/**
* Returns a new {@code Measurement} object that is the sum of this object
* added to the specified value.
*
* @param d The value that will be added with this object.
* @param u The {@code Unit} object of the specified value.
* @return A new {@code Measurement} object that is the sum of this object
* added to the specified value. The unit of the new object is
* computed. The error and time of the new object is set to the
* error and time of this object.
* @throws ArithmeticException If the {@code Unit} objects of this object
* and the specified value cannot be added.
* @see Unit
*/
public Measurement add(double d, Unit u) {
return new Measurement(value + d, error, unit.add(u), time);
}
/**
* Returns a new {@code Measurement} object that is the sum of this object
* added to the specified value.
*
* @param d The value that will be added with this object.
* @return A new {@code Measurement} object that is the sum of this object
* added to the specified value. The error, unit, and time of the
* new object is set to the error, {@code Unit} and time of this
* object.
*/
public Measurement add(double d) {
return new Measurement(value + d, error, unit, time);
}
/**
* Returns a new {@code Measurement} object that is the subtraction of the
* specified object from this object.
*
* @param m The {@code Measurement} object that will be subtracted from this
* object.
* @return A new {@code Measurement} object that is the subtraction of the
* specified object from this object. The error and unit of the new
* object are computed. The time of the new object is set to the
* time of this object.
* @throws ArithmeticException If the {@code Unit} objects of this object
* and the specified object cannot be subtracted.
* @see Unit
*/
public Measurement sub(Measurement m) {
return new Measurement(value - m.value, error + m.error, unit.sub(m.unit), time);
}
/**
* Returns a new {@code Measurement} object that is the subtraction of the
* specified value from this object.
*
* @param d The value that will be subtracted from this object.
* @param u The {@code Unit} object of the specified value.
* @return A new {@code Measurement} object that is the subtraction of the
* specified value from this object. The unit of the new object is
* computed. The error and time of the new object is set to the
* error and time of this object.
* @throws ArithmeticException If the {@code Unit} objects of this object
* and the specified object cannot be subtracted.
* @see Unit
*/
public Measurement sub(double d, Unit u) {
return new Measurement(value - d, error, unit.sub(u), time);
}
/**
* Returns a new {@code Measurement} object that is the subtraction of the
* specified value from this object.
*
* @param d The value that will be subtracted from this object.
* @return A new {@code Measurement} object that is the subtraction of the
* specified value from this object. The error, unit and time of the
* new object is set to the error, {@code Unit} object and time of
* this object.
*/
public Measurement sub(double d) {
return new Measurement(value - d, error, unit, time);
}
/**
* Returns a {@code String} object representing this {@code Measurement}
* object.
*
* @return a {@code String} object representing this {@code Measurement}
* object.
*/
public String toString() {
String result = name;
if (result == null) {
StringBuffer sb = new StringBuffer();
sb.append(value);
if (error != 0.0d) {
sb.append(" +/- ");
sb.append(error);
}
String u = unit.toString();
if (u.length() > 0) {
sb.append(" ");
sb.append(u);
}
result = sb.toString();
name = result;
}
return result;
}
/**
* Compares this object with the specified object for order. Returns a
* negative integer, zero, or a positive integer if this object is less
* than, equal to, or greater than the specified object.
*
*
* Note: This class has a natural ordering that is inconsistent with equals.
* For this method, another {@code Measurement} object is considered equal
* if there is some {@code x} such that
*
*
* getValue() - getError() <= x <= getValue() + getError()
*
*
* for both {@code Measurement} objects being compared.
*
* @param obj The object to be compared.
* @return A negative integer, zero, or a positive integer if this object is
* less than, equal to, or greater than the specified object.
*
* @throws ClassCastException If the specified object is not of type
* {@code Measurement}.
* @throws ArithmeticException If the unit of the specified
* {@code Measurement} object is not equal to the {@code Unit}
* object of this object.
*/
public int compareTo(Object obj) {
if (this == obj) {
return 0;
}
Measurement that = (Measurement) obj;
if (!unit.equals(that.unit)) {
throw new ArithmeticException("Cannot compare " + this + " and " + that);
}
int result = Double.compare(value, that.value);
if (result == 0) {
return 0;
}
if (result < 0) {
if (Double.compare(value + error, that.value - that.error) >= 0) {
return 0;
}
return -1;
}
if (Double.compare(value - error, that.value + that.error) <= 0) {
return 0;
}
return 1;
}
/**
* Returns a hash code value for this object.
*
* @return A hash code value for this object.
*/
public int hashCode() {
int h = hashCode;
if (h == 0) {
long bits = Double.doubleToLongBits(value);
h = 31 * 17 + ((int) (bits ^ (bits >>> 32)));
bits = Double.doubleToLongBits(error);
h = 31 * h + ((int) (bits ^ (bits >>> 32)));
h = 31 * h + unit.hashCode();
hashCode = h;
}
return h;
}
/**
* Returns whether the specified object is equal to this object. Two
* {@code Measurement} objects are equal if they have same value, error and
* {@code Unit}.
*
*
* Note: This class has a natural ordering that is inconsistent with equals.
* See {@link #compareTo(Object)}.
*
* @param obj The object to compare with this object.
* @return {@code true} if this object is equal to the specified object;
* {@code false} otherwise.
*/
public boolean equals(Object obj) {
if (this == obj) {
return true;
}
if (!(obj instanceof Measurement)) {
return false;
}
Measurement that = (Measurement) obj;
return (Double.compare(value, that.value) == 0) && (Double.compare(error, that.error) == 0) && unit.equals(that.unit);
}
}