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6697bb4735e94a720210b3e248237eea184abb46
openfoam/etc/controlDict
Mark Olesen 6697bb4735 ENH: improve, simplify, rationalize coordinate system handling (issue #863) 
Previously the coordinate system functionality was split between
coordinateSystem and coordinateRotation. The coordinateRotation stored
the rotation tensor and handled all tensor transformations.

The functionality has now been revised and consolidated into the
coordinateSystem classes. The sole purpose of coordinateRotation
is now just to provide a selectable mechanism of how to define the
rotation tensor (eg, axis-angle, euler angles, local axes) for user
input, but after providing the appropriate rotation tensor it has
no further influence on the transformations.

--

The coordinateSystem class now contains an origin and a base rotation
tensor directly and various transformation methods.

  - The origin represents the "shift" for a local coordinate system.

  - The base rotation tensor represents the "tilt" or orientation
    of the local coordinate system in general (eg, for mapping
    positions), but may require position-dependent tensors when
    transforming vectors and tensors.

For some coordinate systems (currently the cylindrical coordinate system),
the rotation tensor required for rotating a vector or tensor is
position-dependent.

The new coordinateSystem and its derivates (cartesian, cylindrical,
indirect) now provide a uniform() method to define if the rotation
tensor is position dependent/independent.

The coordinateSystem transform and invTransform methods are now
available in two-parameter forms for obtaining position-dependent
rotation tensors. Eg,

      ... = cs.transform(globalPt, someVector);

In some cases it can be useful to use query uniform() to avoid
storage of redundant values.

      if (cs.uniform())
      {
          vector xx = cs.transform(someVector);
      }
      else
      {
          List<vector> xx = cs.transform(manyPoints, someVector);
      }

Support transform/invTransform for common data types:
   (scalar, vector, sphericalTensor, symmTensor, tensor).

====================
  Breaking Changes
====================

- These changes to coordinate systems and rotations may represent
  a breaking change for existing user coding.

- Relocating the rotation tensor into coordinateSystem itself means
  that the coordinate system 'R()' method now returns the rotation
  directly instead of the coordinateRotation. The method name 'R()'
  was chosen for consistency with other low-level entities (eg,
  quaternion).

  The following changes will be needed in coding:

      Old:  tensor rot = cs.R().R();
      New:  tensor rot = cs.R();

      Old:  cs.R().transform(...);
      New:  cs.transform(...);

  Accessing the runTime selectable coordinateRotation
  has moved to the rotation() method:

      Old:  Info<< "Rotation input: " << cs.R() << nl;
      New:  Info<< "Rotation input: " << cs.rotation() << nl;

- Naming consistency changes may also cause code to break.

      Old:  transformVector()
      New:  transformPrincipal()

  The old method name transformTensor() now simply becomes transform().

====================
  New methods
====================

For operations requiring caching of the coordinate rotations, the
'R()' method can be used with multiple input points:

       tensorField rots(cs.R(somePoints));

   and later

       Foam::transformList(rots, someVectors);

The rotation() method can also be used to change the rotation tensor
via a new coordinateRotation definition (issue #879).

The new methods transformPoint/invTransformPoint provide
transformations with an origin offset using Cartesian for both local
and global points. These can be used to determine the local position
based on the origin/rotation without interpreting it as a r-theta-z
value, for example.

================
  Input format
================

- Streamline dictionary input requirements

  * The default type is cartesian.
  * The default rotation type is the commonly used axes rotation
    specification (with e1/e2/3), which is assumed if the 'rotation'
    sub-dictionary does not exist.

    Example,

    Compact specification:

        coordinateSystem
        {
            origin  (0 0 0);
            e2      (0 1 0);
            e3      (0.5 0 0.866025);
        }

    Full specification (also accepts the longer 'coordinateRotation'
    sub-dictionary name):

        coordinateSystem
        {
            type    cartesian;
            origin  (0 0 0);

            rotation
            {
                type    axes;
                e2      (0 1 0);
                e3      (0.5 0 0.866025);
            }
        }

   This simplifies the input for many cases.

- Additional rotation specification 'none' (an identity rotation):

      coordinateSystem
      {
          origin  (0 0 0);
          rotation { type none; }
      }

- Additional rotation specification 'axisAngle', which is similar
  to the -rotate-angle option for transforming points (issue #660).
  For some cases this can be more intuitive.

  For example,

      rotation
      {
          type    axisAngle;
          axis    (0 1 0);
          angle   30;
      }
  vs.
      rotation
      {
          type    axes;
          e2      (0 1 0);
          e3      (0.5 0 0.866025);
      }

- shorter names (or older longer names) for the coordinate rotation
  specification.

     euler         EulerRotation
     starcd        STARCDRotation
     axes          axesRotation

================
  Coding Style
================
- use Foam::coordSystem namespace for categories of coordinate systems
  (cartesian, cylindrical, indirect). This reduces potential name
  clashes and makes a clearer declaration. Eg,

      coordSystem::cartesian csys_;

  The older names (eg, cartesianCS, etc) remain available via typedefs.

- added coordinateRotations namespace for better organization and
  reduce potential name clashes.
2018-10-01 13:54:10 +02:00

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/*--------------------------------*- C++ -*----------------------------------*\
| ========= | |
| \\ / F ield | OpenFOAM: The Open Source CFD Toolbox |
| \\ / O peration | Version: v1806 |
| \\ / A nd | Web: www.OpenFOAM.com |
| \\/ M anipulation | |
\*---------------------------------------------------------------------------*/
FoamFile
{
version 2.0;
format ascii;
class dictionary;
object controlDict;
}
// NB: the #functions do not work here
// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * //
Documentation
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docBrowser "firefox -new-tab %f";
doxySourceFileExt "_8C.html";
// Places to search for documentation, http is last in the list
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"$WM_PROJECT_USER_DIR/html"
"$WM_PROJECT_DIR/doc/Doxygen/html"
"https://www.openfoam.com/documentation/cpp-guide/html"
);
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// - 1 = per-host-count, but unsorted
// - 2 = long output of "slave.pid" ...
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pointSet 0;
pointSphericalTensorField 0;
pointSphericalTensorField::Internal 0;
pointSymmTensorField 0;
pointSymmTensorField::Internal 0;
pointTensorField 0;
pointTensorField::Internal 0;
pointToCell 0;
pointToFace 0;
pointToPoint 0;
pointVectorField 0;
pointVectorField::Internal 0;
pointZone 0;
polyBoundaryMesh 0;
polyMesh 0;
polyMeshGeometry 0;
polyMeshInfo 0;
polyTopoChange 0;
polyTopoChanger 0;
powerLaw 0;
pressureDirectedInletOutletVelocity 0;
pressureDirectedInletVelocity 0;
pressureInletOutletVelocity 0;
pressureInletUniformVelocity 0;
pressureInletVelocity 0;
pressureNormalInletOutletVelocity 0;
pressureSwirlInjector 0;
primitiveMesh 0;
primitiveMeshGeometry 0;
probes 0;
processor 0;
processorLduInterface 0;
processorLduInterfaceField 0;
pureMixture<constTransport<thermo<hConstThermo<perfectGas>>>> 0;
pureMixture<sutherlandTransport<thermo<hConstThermo<perfectGas>>>> 0;
pureMixture<sutherlandTransport<thermo<janafThermo<perfectGas>>>> 0;
quadratic 0;
quadraticFit 0;
quadraticLinearFit 0;
quadraticLinearUpwindFit 0;
quadraticUpwindFit 0;
radiationModel 0;
raw 0;
reactingCloud 0;
reaction 0;
realizableKE 0;
refinementHistory 0;
refinementIterator 0;
reflect 0;
regIOobject 0;
regionSplit 0;
regionToCell 0;
remove 0;
removeCell 0;
removeCells 0;
removeFace 0;
removeFaces 0;
removePoint 0;
removePoints 0;
reverseLinear 0;
rotatedBoxToCell 0;
rotatingPressureInletOutletVelocity 0;
rotatingTotalPressure 0;
sampledPatch 0;
sampledPlane 0;
sampledSet 0;
sampledSurface 0;
saturateEvaporationModel 0;
scalarAverageField 0;
scalarField 0;
scaleSimilarity 0;
scatterModel 0;
searchableBox 0;
searchableSurface 0;
sequential 0;
setUpdater 0;
sets 0;
shapeList 0;
shapeToCell 0;
simple 0;
sixDoFRigidBodyMotionConstraint 0;
skewCorrected 0;
skewCorrectionVectors 0;
sliced 0;
slidingInterface 0;
slip 0;
smooth 0;
smoothSolver 0;
solid 0;
solidBodyMotionFunction 0;
solidBodyMotionFvMesh 0;
solution 0;
spectEddyVisc 0;
sphereToCell 0;
spherical 0;
sphericalTensorAverageField 0;
sphericalTensorField 0;
standardDragModel 0;
standardEvaporationModel 0;
staticFvMesh 0;
steadyState 0;
stl 0;
string 0;
stochasticDispersionRAS 0;
supersonicFreestream 0;
surfaceFeatures 0;
surfaceInterpolation 0;
surfaceInterpolationScheme 0;
surfaceIntersection 0;
surfaceNormalFixedValue 0;
surfacePatch 0;
surfaceScalarField 0;
surfaceScalarField::Internal 0;
surfaceSlipDisplacement 0;
surfaceSphericalTensorField 0;
surfaceSphericalTensorField::Internal 0;
surfaceSymmTensorField 0;
surfaceSymmTensorField::Internal 0;
surfaceTensorField 0;
surfaceTensorField::Internal 0;
surfaceToCell 0;
surfaceToPoint 0;
surfaceVectorField 0;
surfaceVectorField::Internal 0;
surfaceWriter 0;
surfaces 0;
swirlInjector 0;
symmTensorAverageField 0;
symmTensorField 0;
symmetryPlane 0;
symmetry 0;
syringePressure 0;
tensorAverageField 0;
tensorField 0;
tetDecomposedPolyMesh 0;
thermoCloud 0;
thermophysicalFunction 0;
time 0;
timeVaryingAlphaContactAngle 0;
timeVaryingFlowRateInletVelocity 0;
timeVaryingMappedFixedValue 0;
timeVaryingTotalPressure 0;
timeVaryingUniformFixedValue 0;
timer 0;
topoAction 0;
topoCellLooper 0;
topoChangerFvMesh 0;
topoSet 0;
topoSetSource 0;
toroidal 0;
totalPressure 0;
totalTemperature 0;
trackedParticle 0;
trajectory 0;
transform 0;
treeDataCell 0;
treeDataFace 0;
treeDataTriSurface 0;
treeLeaf 0;
treeNode 0;
triSurface 0;
triSurfaceMesh 0;
turbulenceModel 0;
turbulentInlet 0;
turbulentIntensityKineticEnergyInlet 0;
turbulentMixingLengthDissipationRateInlet 0;
turbulentMixingLengthFrequencyInlet 0;
uncorrected 0;
undoableMeshCutter 0;
uniform 0;
uniformFixedValue 0;
unitInjector 0;
upwind 0;
upwindCFCStencil 0;
value 0;
vanAlbada 0;
vanAlbadaV 0;
vanDriest 0;
vanLeer 0;
vanLeer01 0;
vanLeerV 0;
vector2DField 0;
vectorAverageField 0;
vectorField 0;
velocityComponentLaplacian 0;
velocityLaplacian 0;
viscosityModel 0;
volPointInterpolation 0;
volScalarField 0;
volScalarField::Internal 0;
volSphericalTensorField 0;
volSphericalTensorField::Internal 0;
volSymmTensorField 0;
volSymmTensorField::Internal 0;
volTensorField 0;
volTensorField::Internal 0;
volVectorField 0;
volVectorField::Internal 0;
vtk 0;
walkPatch 0;
wall 0;
wallHeatTransfer 0;
wallLayerCells 0;
wallModel 0;
waveTransmissive 0;
wedge 0;
weighted 0;
word 0;
writer 0;
xmgr 0;
zeroGradient 0;
zoneToCell 0;
zoneToFace 0;
zoneToPoint 0;
}
DimensionedConstants
{
unitSet SI; // USCS
SICoeffs
{
universal
{
c c [0 1 -1 0 0 0 0] 2.99792e+08;
G G [-1 3 -2 0 0 0 0] 6.67429e-11;
h h [1 2 -1 0 0 0 0] 6.62607e-34;
}
electromagnetic
{
e e [0 0 1 0 0 1 0] 1.60218e-19;
}
atomic
{
me me [1 0 0 0 0 0 0] 9.10938e-31;
mp mp [1 0 0 0 0 0 0] 1.67262e-27;
}
physicoChemical
{
mu mu [1 0 0 0 0 0 0] 1.66054e-27;
k k [1 2 -2 -1 0 0 0] 1.38065e-23;
}
standard
{
//- Standard pressure [Pa]
Pstd Pstd [1 -1 -2 0 0 0 0] 1e5;
//- Standard temperature [degK]
Tstd Tstd [0 0 0 1 0 0 0] 298.15;
}
}
USCSCoeffs
{
universal
{
c c [0 1 -1 0 0 0 0] 9.83558e+08;
G G [-1 3 -2 0 0 0 0] 1.06909e-09;
h h [1 2 -1 0 0 0 0] 1.57234e-32;
}
electromagnetic
{
e e [0 0 1 0 0 1 0] 1.60218e-19;
}
atomic
{
me me [1 0 0 0 0 0 0] 2.00825e-30;
mp mp [1 0 0 0 0 0 0] 3.68746e-27;
}
physicoChemical
{
mu mu [1 0 0 0 0 0 0] 3.66083e-27;
k k [1 2 -2 -1 0 0 0] 1.82012e-22;
}
standard
{
//- Standard pressure [lbm/ft^2]
Pstd Pstd [1 -1 -2 0 0 0 0] 2088.6;
//- Standard temperature [degR]
Tstd Tstd [0 0 0 1 0 0 0] 536.67;
}
}
}
DimensionSets
{
unitSet SI; // USCS
SICoeffs
{
// Basic units
kg kg [1 0 0 0 0 0 0] 1.0;
m m [0 1 0 0 0 0 0] 1.0;
s s [0 0 1 0 0 0 0] 1.0;
K K [0 0 0 1 0 0 0] 1.0;
mol mol [0 0 0 0 1 0 0] 1.0;
A A [0 0 0 0 0 1 0] 1.0;
Cd Cd [0 0 0 0 0 0 1] 1.0;
// Derived units
Hz Hz [s^-1] 1.0;
N N [kg m s^-2] 1.0;
Pa Pa [N m^-2] 1.0;
J J [N m] 1.0;
W W [J s^-1] 1.0;
// Some non-symbolic ones
area area [m^2] 1.0;
volume volume [m^3] 1.0;
density density [kg m^-3] 1.0;
acceleration acceleration [m s^-2] 1.0;
kinematicPressure kinematicPressure [Pa density^-1] 1.0;
// Scaled units. Only allowed in dimensionedType (dimensionedScalar,
// dimensionedVector etc.) and UniformDimensionedField, not
// in DimensionedField or GeometricField
cm cm [m] 1e-2;
mm mm [m] 1e-3;
km km [m] 1e3;
// Set of units used for printing. Can be any basic or derived
// but not scaled (only supported for dimensionedScalar, etc)
//writeUnits (kg m s K mol A Cd);
}
USCSCoeffs
{
// Basic units
lb lb [1 0 0 0 0 0 0] 1.0;
ft ft [0 1 0 0 0 0 0] 1.0;
s s [0 0 1 0 0 0 0] 1.0;
R R [0 0 0 1 0 0 0] 1.0;
mol mol [0 0 0 0 1 0 0] 1.0;
A A [0 0 0 0 0 1 0] 1.0;
Cd Cd [0 0 0 0 0 0 1] 1.0;
// Set of units used for printing. Can be any basic or derived
// but not scaled (only supported for dimensionedScalar, etc)
//writeUnits (lb ft s R mol A Cd);
}
}
// ************************************************************************* //
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