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Mélina Vanel
Orekit
Commits
d87024d2
Commit
d87024d2
authored
May 07, 2021
by
Bryan Cazabonne
Browse files
Updated RealField functions to CalculusField.
parent
24b73a4c
Changes
5
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Inline
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src/main/java/org/orekit/frames/L1TransformProvider.java
View file @
d87024d2
...
...
@@ -18,7 +18,7 @@ package org.orekit.frames;
import
org.hipparchus.Field
;
import
org.hipparchus.CalculusFieldElement
;
import
org.hipparchus.analysis.
Real
FieldUnivariateFunction
;
import
org.hipparchus.analysis.
Calculus
FieldUnivariateFunction
;
import
org.hipparchus.analysis.UnivariateFunction
;
import
org.hipparchus.analysis.solvers.AllowedSolution
;
import
org.hipparchus.analysis.solvers.BracketingNthOrderBrentSolver
;
...
...
@@ -158,7 +158,7 @@ public class L1TransformProvider implements TransformProvider {
final
T
baseR
=
bigR
.
multiply
(
1
-
FastMath
.
cbrt
(
massRatio
/
3
));
// Accurate position of L1 point, by solving the L1 equilibrium equation
final
Real
FieldUnivariateFunction
<
T
>
l1Equation
=
r
->
{
final
Calculus
FieldUnivariateFunction
<
T
>
l1Equation
=
r
->
{
final
T
bigrminusR
=
bigR
.
subtract
(
r
);
final
T
lhs
=
r
.
multiply
(
r
).
reciprocal
();
final
T
rhs1
=
bigrminusR
.
multiply
(
bigrminusR
).
reciprocal
().
multiply
(
massRatio
);
...
...
src/main/java/org/orekit/frames/L2TransformProvider.java
View file @
d87024d2
...
...
@@ -18,7 +18,7 @@ package org.orekit.frames;
import
org.hipparchus.Field
;
import
org.hipparchus.CalculusFieldElement
;
import
org.hipparchus.analysis.
Real
FieldUnivariateFunction
;
import
org.hipparchus.analysis.
Calculus
FieldUnivariateFunction
;
import
org.hipparchus.analysis.UnivariateFunction
;
import
org.hipparchus.analysis.solvers.AllowedSolution
;
import
org.hipparchus.analysis.solvers.BracketingNthOrderBrentSolver
;
...
...
@@ -158,7 +158,7 @@ class L2TransformProvider implements TransformProvider {
final
T
baseR
=
bigR
.
multiply
(
FastMath
.
cbrt
(
massRatio
/
3
)
+
1
);
// Accurate position of L2 point, by solving the L2 equilibrium equation
final
Real
FieldUnivariateFunction
<
T
>
l2Equation
=
r
->
{
final
Calculus
FieldUnivariateFunction
<
T
>
l2Equation
=
r
->
{
final
T
rminusbigR
=
r
.
subtract
(
bigR
);
final
T
lhs1
=
r
.
multiply
(
r
).
reciprocal
();
final
T
lhs2
=
rminusbigR
.
multiply
(
rminusbigR
).
reciprocal
().
multiply
(
massRatio
);
...
...
src/main/java/org/orekit/gnss/attitude/Glonass.java
View file @
d87024d2
...
...
@@ -18,7 +18,7 @@ package org.orekit.gnss.attitude;
import
org.hipparchus.Field
;
import
org.hipparchus.CalculusFieldElement
;
import
org.hipparchus.analysis.
Real
FieldUnivariateFunction
;
import
org.hipparchus.analysis.
Calculus
FieldUnivariateFunction
;
import
org.hipparchus.analysis.UnivariateFunction
;
import
org.hipparchus.analysis.solvers.AllowedSolution
;
import
org.hipparchus.analysis.solvers.BracketingNthOrderBrentSolver
;
...
...
@@ -155,7 +155,7 @@ public class Glonass extends AbstractGNSSAttitudeProvider {
final
T
aNight
=
field
.
getZero
().
add
(
NIGHT_TURN_LIMIT
);
T
aNoon
=
FastMath
.
atan
(
muRate
.
divide
(
yawRate
));
if
(
FastMath
.
abs
(
realBeta
).
getReal
()
<
aNoon
.
getReal
())
{
final
Real
FieldUnivariateFunction
<
T
>
f
=
yawEnd
->
{
final
Calculus
FieldUnivariateFunction
<
T
>
f
=
yawEnd
->
{
final
T
delta
=
muRate
.
multiply
(
yawEnd
).
divide
(
yawRate
);
return
yawEnd
.
subtract
(
FastMath
.
abs
(
context
.
computePhi
(
realBeta
,
delta
).
subtract
(
context
.
computePhi
(
realBeta
,
delta
.
negate
()))).
...
...
src/main/java/org/orekit/models/earth/Geoid.java
View file @
d87024d2
...
...
@@ -18,7 +18,7 @@ package org.orekit.models.earth;
import
org.hipparchus.Field
;
import
org.hipparchus.CalculusFieldElement
;
import
org.hipparchus.analysis.
Real
FieldUnivariateFunction
;
import
org.hipparchus.analysis.
Calculus
FieldUnivariateFunction
;
import
org.hipparchus.analysis.UnivariateFunction
;
import
org.hipparchus.analysis.solvers.AllowedSolution
;
import
org.hipparchus.analysis.solvers.BracketingNthOrderBrentSolver
;
...
...
@@ -505,7 +505,7 @@ public class Geoid implements EarthShape {
final
T
highPoint
=
maxAbscissa2
.
sqrt
();
// line search function
final
Real
FieldUnivariateFunction
<
T
>
heightFunction
=
z
->
{
final
Calculus
FieldUnivariateFunction
<
T
>
heightFunction
=
z
->
{
try
{
final
FieldGeodeticPoint
<
T
>
geodetic
=
transform
(
line
.
pointAt
(
z
),
bodyFrame
,
date
);
...
...
src/main/java/org/orekit/propagation/semianalytical/dsst/forces/AbstractGaussianContribution.java
View file @
d87024d2
...
...
@@ -26,7 +26,7 @@ import java.util.Set;
import
org.hipparchus.Field
;
import
org.hipparchus.CalculusFieldElement
;
import
org.hipparchus.analysis.
Real
FieldUnivariateVectorFunction
;
import
org.hipparchus.analysis.
Calculus
FieldUnivariateVectorFunction
;
import
org.hipparchus.analysis.UnivariateVectorFunction
;
import
org.hipparchus.geometry.euclidean.threed.FieldVector3D
;
import
org.hipparchus.geometry.euclidean.threed.Vector3D
;
...
...
@@ -619,7 +619,7 @@ public abstract class AbstractGaussianContribution implements DSSTForceModel {
* </p>
*/
protected
class
FieldIntegrableFunction
<
T
extends
CalculusFieldElement
<
T
>>
implements
Real
FieldUnivariateVectorFunction
<
T
>
{
implements
Calculus
FieldUnivariateVectorFunction
<
T
>
{
/** Current state. */
private
final
FieldSpacecraftState
<
T
>
state
;
...
...
@@ -1386,7 +1386,7 @@ public abstract class AbstractGaussianContribution implements DSSTForceModel {
* @param field field utilized by default
* @return the integral of the weighted function.
*/
public
<
T
extends
CalculusFieldElement
<
T
>>
T
[]
integrate
(
final
Real
FieldUnivariateVectorFunction
<
T
>
f
,
public
<
T
extends
CalculusFieldElement
<
T
>>
T
[]
integrate
(
final
Calculus
FieldUnivariateVectorFunction
<
T
>
f
,
final
T
lowerBound
,
final
T
upperBound
,
final
Field
<
T
>
field
)
{
final
T
zero
=
field
.
getZero
();
...
...
@@ -1496,7 +1496,7 @@ public abstract class AbstractGaussianContribution implements DSSTForceModel {
* @param field field utilized by default
* @return the integral of the weighted function.
*/
private
<
T
extends
CalculusFieldElement
<
T
>>
T
[]
basicIntegrate
(
final
Real
FieldUnivariateVectorFunction
<
T
>
f
,
private
<
T
extends
CalculusFieldElement
<
T
>>
T
[]
basicIntegrate
(
final
Calculus
FieldUnivariateVectorFunction
<
T
>
f
,
final
T
[]
points
,
final
T
[]
weights
,
final
Field
<
T
>
field
)
{
T
x
=
points
[
0
];
...
...
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