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Code clean-up

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This commit is contained in:
Hrvoje Jasak 2011-03-24 11:52:08 +00:00
parent a3bb931171
commit 3b90e7959a
3 changed files with 49 additions and 33 deletions
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9
tutorials/incompressible/icoDyMFoam/movingBlockRBF/RBFMotionFunction/RBFMotionFunctionObject.C
View file

@ -67,7 +67,7 @@ Foam::RBFMotionFunctionObject::RBFMotionFunctionObject
statPoints_()
{
Info << "Creating RBFMotion check" << endl;
Info << "Creating RBFMotion function object" << endl;
}
@ -105,9 +105,9 @@ bool Foam::RBFMotionFunctionObject::execute()
# include "kinematicModel.H"
ms.setMotion(motion);
movePoints(ms.newPoints());
ms.setMotion(motion);
movePoints(ms.newPoints());
return true;
}
@ -117,4 +117,5 @@ bool Foam::RBFMotionFunctionObject::read(const dictionary& dict)
return false;
}
// ************************************************************************* //

2
tutorials/incompressible/icoDyMFoam/movingBlockRBF/RBFMotionFunction/RBFMotionFunctionObject.H
View file

@ -26,7 +26,7 @@ Class
RBFMotionFunctionObject
Description
FunctionObject checking the fluxes on ggi interfaces.
FunctionObject specifying motion of control points using RBF
Author
Frank Bos, TU Delft. All rights reserved.

71
tutorials/incompressible/icoDyMFoam/movingBlockRBF/RBFMotionFunction/kinematicModel.H
View file

@ -1,43 +1,58 @@
// Motion is a vectorField of all moving boundary points
vectorField motion(ms.movingPoints().size(), vector::zero);
vectorField oldPoints=ms.movingPoints();
scalar oldTime = time_.value() - time_.deltaT().value();
vectorField oldPoints = ms.movingPoints();
scalar oldTime = time_.value() - time_.deltaT().value();
scalar curTime = time_.value();
scalar alphaOld = 0.0;
scalar alphaCur = 0.0;
/* scalar rotationAmplitude_(0.707);
scalar rotationFrequency_(0.0);
vector translationFrequency_(0.0,0.25,0.0);
vector translationAmplitude_(0.0,5.0,0.0);
vector initialRotationOrigin_(0.0,0.0,0.0);*/
scalar pi=3.141592;
// scalar rotationAmplitude_(0.707);
// scalar rotationFrequency_(0.0);
// vector translationFrequency_(0.0,0.25,0.0);
// vector translationAmplitude_(0.0,5.0,0.0);
// vector initialRotationOrigin_(0.0,0.0,0.0);
scalar pi=3.141592;
alphaOld = rotationAmplitude_*Foam::sin(2*pi*rotationFrequency_*oldTime);
alphaCur = rotationAmplitude_*Foam::sin(2*pi*rotationFrequency_*curTime);
vector translationVector(0.0,0.0,0.0);
translationVector.x()=translationAmplitude_[0]
*(
Foam::sin(2*pi*translationFrequency_[0]*curTime)
-Foam::sin(2*pi*translationFrequency_[0]*oldTime)
);
translationVector.y()=translationAmplitude_[1]
*(
Foam::sin(2*pi*translationFrequency_[1]*curTime)
-Foam::sin(2*pi*translationFrequency_[1]*oldTime)
);
translationVector.z()=0.0;
tensor RzOld(Foam::cos(alphaOld), -Foam::sin(alphaOld), 0, Foam::sin(alphaOld), Foam::cos(alphaOld), 0, 0, 0, 1);
tensor RzCur(Foam::cos(alphaCur), -Foam::sin(alphaCur), 0, Foam::sin(alphaCur), Foam::cos(alphaCur), 0, 0, 0, 1);
vector translationVector
(
translationAmplitude_[0]*
(
Foam::sin(2*pi*translationFrequency_[0]*curTime)
- Foam::sin(2*pi*translationFrequency_[0]*oldTime)
),
translationAmplitude_[1]*
(
Foam::sin(2*pi*translationFrequency_[1]*curTime)
- Foam::sin(2*pi*translationFrequency_[1]*oldTime)
),
0
);
//vectorField rotationField = ( (RzCur & (statPoints_ - initialRotationOrigin_)) - (oldPoints - initialRotationOrigin_) );
tensor RzOld
(
Foam::cos(alphaOld), -Foam::sin(alphaOld), 0,
Foam::sin(alphaOld), Foam::cos(alphaOld), 0,
0, 0, 1
);
vectorField rotationField = ( RzCur - RzOld ) & ( statPoints_ - initialRotationOrigin_ );
tensor RzCur
(
Foam::cos(alphaCur), -Foam::sin(alphaCur), 0,
Foam::sin(alphaCur), Foam::cos(alphaCur), 0,
0, 0, 1
);
vectorField rotationField
(
(RzCur - RzOld)
& (statPoints_ - initialRotationOrigin_)
);
motion = translationVector + rotationField;