User Manual 3.3 Angles and Intervals : Différence entre versions
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=== Javadoc === | === Javadoc === | ||
The angle-related objects are available in the package <code>fr.cnes.sirius.patrius.utils</code> in the PATRIUS library. The class defining an interval end point, though, is in the package <code>org.orekit.utils</code> from orekit-addons. | The angle-related objects are available in the package <code>fr.cnes.sirius.patrius.utils</code> in the PATRIUS library. The class defining an interval end point, though, is in the package <code>org.orekit.utils</code> from orekit-addons. | ||
− | |= | + | {| class="wikitable" |
− | |Patrius |[{{JavaDoc3.3}}/fr/cnes/sirius/patrius/utils/package-summary.html Package fr.cnes.sirius.patrius.utils] | + | |- |
− | |Orekit addons |[{{JavaDoc3.3}}/org/orekit/utils/package-summary.html Package org.orekit.utils] | + | ! scope="col"| Library |
+ | ! scope="col"| Javadoc | ||
+ | |- | ||
+ | |Patrius | ||
+ | |[{{JavaDoc3.3}}/fr/cnes/sirius/patrius/utils/package-summary.html Package fr.cnes.sirius.patrius.utils] | ||
+ | |- | ||
+ | |Orekit addons | ||
+ | |[{{JavaDoc3.3}}/org/orekit/utils/package-summary.html Package org.orekit.utils] | ||
+ | |} | ||
=== Links === | === Links === | ||
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=== Classes === | === Classes === | ||
Here is a summary of the most important classes : | Here is a summary of the most important classes : | ||
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− | |'''IntervalEndpointType'''|Defines an interval end point as OPEN or CLOSED.|[{{JavaDoc3.3}}/org/orekit/ | + | ! scope="col"| Class |
− | |'''AngleInterval'''|Implements an interval of angles, taking angles' modulus into account.|[{{JavaDoc3.3}}/ | + | ! scope="col"| Summary |
− | |'''AngleTools'''|Provides several angle-related utility methods.|[{{JavaDoc3.3}}/ | + | ! scope="col"| Javadoc |
− | |'''GenericInterval'''|Implements a generic interval.|[{{JavaDoc3.3}}/ | + | |- |
− | |'''AbsoluteDateInterval'''|This class implements an interval based on the AbsoluteDate class using the ComparableInterval class.|[{{JavaDoc3.3}}/org/orekit/ | + | |'''IntervalEndpointType''' |
− | |'''ComparableInterval'''|The class describe an interval of Comparable data.|[{{JavaDoc3.3}}/org/orekit/ | + | |Defines an interval end point as OPEN or CLOSED. |
+ | |[{{JavaDoc3.3}}/org/orekit/math/interval/IntervalEndpointType.html ...] | ||
+ | |- | ||
+ | |'''AngleInterval''' | ||
+ | |Implements an interval of angles, taking angles' modulus into account. | ||
+ | |[{{JavaDoc3.3}}/org/orekit/math/interval/AngleInterval.html ...] | ||
+ | |- | ||
+ | |'''AngleTools''' | ||
+ | |Provides several angle-related utility methods. | ||
+ | |[{{JavaDoc3.3}}/org/orekit/math/interval/AngleTools.html ...] | ||
+ | |- | ||
+ | |'''GenericInterval''' | ||
+ | |Implements a generic interval. | ||
+ | |[{{JavaDoc3.3}}/org/orekit/math/interval/GenericInterval.html ...] | ||
+ | |- | ||
+ | |'''AbsoluteDateInterval''' | ||
+ | |This class implements an interval based on the AbsoluteDate class using the ComparableInterval class. | ||
+ | |[{{JavaDoc3.3}}/org/orekit/time/AbsoluteDateInterval.html ...] | ||
+ | |- | ||
+ | |'''ComparableInterval''' | ||
+ | |The class describe an interval of Comparable data. | ||
+ | |[{{JavaDoc3.3}}/org/orekit/math/interval/ComparableInterval.html ...] | ||
+ | |} | ||
=== Angle intervals === | === Angle intervals === |
Version actuelle en date du 1 mars 2018 à 14:54
Sommaire
Introduction
Scope
This section describes how angles, intervals and angle intervals are defined and used in the PATRIUS library.
Javadoc
The angle-related objects are available in the package fr.cnes.sirius.patrius.utils
in the PATRIUS library. The class defining an interval end point, though, is in the package org.orekit.utils
from orekit-addons.
Library | Javadoc |
---|---|
Patrius | Package fr.cnes.sirius.patrius.utils |
Orekit addons | Package org.orekit.utils |
Links
None as of now.
Useful Documents
None as of now.
Package Overview
The package org.orekit.utils
contains the class IntervalEndPoint that defines the type of boundary (CLOSED, OPEN) of an interval end.
The package fr.cnes.sirius.patrius.utils
contains the actual angle-related classes.
Features Description
Generic intervals
An interval is made of two endpoints, and each endpoint may be closed or opened.
This is the most generic implementation of intervals : the class GenericInterval<T>
. The enumeration provides the endpoint types : CLOSED and OPEN.
This class is meant to be used as a parent class for all intervals implementations.
This class makes no assumption on the nature of the parameter class T, so it may create intervals of anything- but the functionality for this class is limited (we only have getters for the endpoints values, and their type). That's why it's meant to be used as a parent class.
The class is immutable, in the sense that the endpoints objects are set at the interval creation.
Mutable types should not be used as endpoint value types!
Examples :
final IntervalEndpointType lowType = IntervalEndpointType.OPEN; final Double lowValue = new Double(34.56); final IntervalEndpointType upType = IntervalEndpointType.CLOSED; final Double upValue = new Double(-2.3e34); // Note the order of values is off : this class cannot enforce an order final GenericInterval<Double> tgi = new GenericInterval<Double>(lowType, lowValue, upValue, upType); final Double gLow = tgi.getLowerData(); assertTrue(gLow.equals(lowValue));
Please see the Javadoc for more information.
Example with doubles: interval [1.0, 2.0[ :
GenericInterval<Double> interval = new GenericInterval<Double>(IntervalEndpointType.CLOSED, 1.0, 2.0, IntervalEndpointType.OPEN);
Comparable intervals
This implementation of intervals, ComparableInterva<T extends Comparable<T>>
, is for types implementing the Comparable interface ( for instance : Integer
, Double
).
This implementation inherits from GenericInterval<T>
; in addition to inherited capabilities, it enforces a proper order on the lower and upper endpoints. A ComparableInterval
can also tell :
- if a given value is inside an interval
- if an interval is inside another
- if two intervals overlap
Examples :
(((
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) Double
(-4.44);(% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) Double d2
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) Double
(2.22);(% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) Double d3
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) Double
(6.23);(% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) Double d4
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) Double
(8.72);(% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) IntervalEndpointType open
=IntervalEndpointType
.<pre style="color: rgb(125, 144, 41);">OPEN(% style="color: rgb(102, 102, 102);" %);</pre> (% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) IntervalEndpointType closed
=IntervalEndpointType
.<pre style="color: rgb(125, 144, 41);">CLOSED(% style="color: rgb(102, 102, 102);" %);</pre>
(% style="color: rgb(64, 128, 128);" %)~/~/ Interval : [-4.44 ; 2.22 [(%%) (% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) ComparableInterval
<Double
>ti1
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) ComparableInterval
<Double
>(closed
,d1
,d2
,open
);(% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) Double inside1
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) Double
(-4.44);(% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) Double inside2
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) Double
(-2.24);(% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) Double outside1
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) Double
(-0.2313E96);(% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) Double outside2
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) Double
(-4.45);assertTrue
(ti1
.<pre style="color: rgb(125, 144, 41);">contains(% style="color: rgb(102, 102, 102);" %)(</pre>inside1
));assertTrue
(ti1
.<pre style="color: rgb(125, 144, 41);">contains(% style="color: rgb(102, 102, 102);" %)(</pre>inside2
));assertTrue
(!ti1
.<pre style="color: rgb(125, 144, 41);">contains(% style="color: rgb(102, 102, 102);" %)(</pre>outside1
));assertTrue
(!ti1
.<pre style="color: rgb(125, 144, 41);">contains(% style="color: rgb(102, 102, 102);" %)(</pre>outside2
));
(% style="color: rgb(64, 128, 128);" %)~/~/ Two open overlapping intervals
(%%) (% style="color: rgb(64, 128, 128);" %)~/~/ ] d1 ; d3 [ (%%) (% style="color: rgb(64, 128, 128);" %)~/~/ ...] d2 ; d4 [
(%%) (% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) ComparableInterval<Double
>ovo1
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) ComparableInterval
<Double
>(open
,d1
,d3
,open
);(% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) ComparableInterval
<Double
>ovo2
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) ComparableInterval
<Double
>(open
,d2
,d4
,open
);assertTrue
(ovo1
.<pre style="color: rgb(125, 144, 41);">overlaps(% style="color: rgb(102, 102, 102);" %)(</pre>ovo2
));assertTrue
(ovo2
.<pre style="color: rgb(125, 144, 41);">overlaps(% style="color: rgb(102, 102, 102);" %)(</pre>ovo1
));
(% style="color: rgb(64, 128, 128);" %)~/~/ Two closed intervals, first includes second
(%%) (% style="color: rgb(64, 128, 128);" %)~/~/ [ d1 .....;..... d4 ] (%%) (% style="color: rgb(64, 128, 128);" %)~/~/ .....[ d2 ; d3 ]
(%%) (% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) ComparableInterval<Double
>clos1
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) ComparableInterval
<Double
>(closed
,d1
,d4
,closed
);(% style="font-weight: bold; color: rgb(0, 128, 0);" %)final(%%) ComparableInterval
<Double
>clos2
=(% style="font-weight: bold; color: rgb(0, 128, 0);" %)new(%%) ComparableInterval
<Double
>(closed
,d2
,d3
,closed
);assertTrue
(clos1
.<pre style="color: rgb(125, 144, 41);">includes(% style="color: rgb(102, 102, 102);" %)(</pre>clos2
));assertTrue
(!clos2
.<pre style="color: rgb(125, 144, 41);">includes
(clos1</pre>(% style="color: rgb(102, 102, 102);" %)));
)))
Please see the Javadoc for more information.
Angle intervals
The AngleInterval class represents an interval of doubles that shall be used to deal with angles. It contains the end points values and types (enum OPENED and CLOSED, class IntervalEndPointType), the mid value (“reference”) and the interval length.
Angle tools
This class is a toolbox containing static methods to perform operations on angles, for instance :
- angleInInterval : tells if a given angle value (as a double) is inside an angle interval
- angle comparisons
- supplementary, complementary angles computation
Getting Started
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Contents
Interfaces
None as of now.
Classes
Here is a summary of the most important classes :
Class | Summary | Javadoc |
---|---|---|
IntervalEndpointType | Defines an interval end point as OPEN or CLOSED. | ... |
AngleInterval | Implements an interval of angles, taking angles' modulus into account. | ... |
AngleTools | Provides several angle-related utility methods. | ... |
GenericInterval | Implements a generic interval. | ... |
AbsoluteDateInterval | This class implements an interval based on the AbsoluteDate class using the ComparableInterval class. | ... |
ComparableInterval | The class describe an interval of Comparable data. | ... |
Angle intervals
Two constructors are available for an AngleInterval instance :
- One needing directly the end points values and types. Its signature is in the writing order. For example, to create [0.0, 2PI[ :
AngleInterval angleInterval1 = new AngleInterval(IntervalEndpointType.CLOSED, 0.0, MathUtils.TWO_PI, IntervalEndpointType.OPEN);
- One needing the reference and length values, and the end points nature. Here, the signature is : “reference”, “length”, “lower end point type”, “upper end point type”. To create [-PI, PI[ :
AngleInterval angleInterval1 = new AngleInterval(0.0, MathUtils.TWO_PI, IntervalEndpointType.CLOSED, IntervalEndpointType.OPEN);
Those constructors throw an exception « MathIllegalArgumentException » if the interval is not valid. It is considered not valid if :
- The length is strictly greater than 2PI
- The length is equal to 2PI and both end points are “closed”
- The length is negative
- The length is zero and at least one end point is opened (an interval with only one double in it is accepted)
Those intervals are impossible to modify once created : they have no setters. To get an interval with different values, a new one shall be constructed.
Angle tools
The method "angleInInterval"
The method « angleInInterval » computes the (2PI) modulus of an angle (given as a double) in an angle interval (AngleInterval object) :
- If a (2PI) modulus of the input angle exists in the interval, its value is returned. Because the angles have a maximum length of 2PI with at least an open end point, there can be only one solution.
- If no value in the interval is a solution, it means the operation is impossible with the given inputs, and a « MathIllegalArgumentException » is thrown.
Use example :
try { // Angle double angle = 6*FastMath.PI; // Interval creation AngleInterval angleInterval = new AngleInterval(IntervalEndpointType.OPEN, - MathUtils.HALF_PI, MathUtils.HALF_PI, IntervalEndpointType.OPEN); // angle in interval double result = AngleTools.angleInInterval(angle, angleInterval); } catch (MathIllegalArgumentException e) { // correct catch! }
« result » value is here 0.0 : the modulus of 6PI in ]-PI/2,-PI/2[
Comparisons methods
The comparison methods available in the AngleTools class are the same as the one for doubles in the « Comparators » class : relative comparisons using a default epsilon. Input angles are only expressed in the input interval before the comparison.
If the computation in the interval of one of the input angles is not possible, a « MathIllegalArgumentException » is thrown.
Use example :
try { // Angle double angle1 = 6*FastMath.PI; double angle2 = 4*FastMath.PI + 0.1; // Interval creation AngleInterval angleInterval = new AngleInterval(IntervalEndpointType.OPEN, - MathUtils.HALF_PI, MathUtils.HALF_PI, IntervalEndpointType.OPEN); // angle in interval boolean isLowerOrEqual = AngleTools.lowerOrEqual(angle1, angle2, angleInterval); } catch (MathIllegalArgumentException e) { // correct catch ! }
Both angles are here computable in the given interval. The first one is lower than the second once in the interval : the returned result is “true”
Supplementary, complementary and opposite angles
The tools box AngleTools proposes the methods to compute supplementary (method supplementaryAngle), complementary (method complementaryAngle) and opposite (method oppositeAngle) angles, taking into account an angle interval (of the type AngleInterval previously described)
Those methods first compute a common supplementary, complementary or opposite angle, and then try to express the result in the given interval. If this last operation is not possible, an exception is thrown (MathIllegalArgumentException).
Use example :
try { // Interval creation AngleInterval angleInterval = new AngleInterval(IntervalEndpointType.OPEN, - MathUtils.HALF_PI, MathUtils.HALF_PI, IntervalEndpointType.OPEN); // computation double angle = 3.0/4.0*FastMath.PI + 6.0*FastMath.PI; double res = AngleTools.supplementaryAngle(angle, angleInterval); } catch (MathIllegalArgumentException e) { // correct catch ! }
The result is here computable, its value is PI/4.
Tutorials
Tutorial 1
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Tutorial 2
Modèle:SpecialInclusion prefix=$theme sub section="Tuto2"/
Tips & Tricks
None as of now.