157 lines
5.8 KiB
C
157 lines
5.8 KiB
C
// Update dependents
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eqnSrcR == turbulence->R();
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// scalars
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scalarOut = eqns.evaluateScalar("sOut");
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dimensionedScalarOut = eqns.evaluateDimensionedScalar("dsOut");
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eqns.evaluateDimensionedScalarField(dimensionedScalarFieldOut, "dsfOut");
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eqns.evaluateGeometricScalarField(volScalarFieldOut, "volSfOut");
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// vectors
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vectorOut.x() = eqns.evaluateScalar("vOut.x");
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vectorOut.y() = eqns.evaluateScalar("vOut.y");
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vectorOut.z() = eqns.evaluateScalar("vOut.z");
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dimensionedVectorOut.value().x() = eqns.evaluateScalar("dvOut.x");
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dimensionedVectorOut.value().y() = eqns.evaluateScalar("dvOut.y");
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dimensionedVectorOut.value().z() = eqns.evaluateScalar("dvOut.z");
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// There is currently no elegant way to check the dimensions of each
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// component of a "dimensionedType". (dimensionedTypeFields and
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// GeometricTypeFields work automatically, though.) This is how we do
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// it:
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dimensionedVectorOut.dimensions() = eqns.evaluateDimensions("dvOut.x");
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dimensionedVectorOut.dimensions() = eqns.evaluateDimensions("dvOut.y");
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dimensionedVectorOut.dimensions() = eqns.evaluateDimensions("dvOut.z");
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eqns.evaluateDimensionedTypeField
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(
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dimensionedVectorFieldOut,
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"x",
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"dvfOut.x"
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);
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eqns.evaluateDimensionedTypeField
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(
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dimensionedVectorFieldOut,
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"y",
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"dvfOut.y"
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);
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eqns.evaluateDimensionedTypeField
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(
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dimensionedVectorFieldOut,
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"z",
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"dvfOut.z"
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);
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eqns.evaluateGeometricTypeField(volVectorFieldOut, "x", "volVfOut.x");
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eqns.evaluateGeometricTypeField(volVectorFieldOut, "y", "volVfOut.y");
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eqns.evaluateGeometricTypeField(volVectorFieldOut, "z", "volVfOut.z");
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// tensors
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tensorOut.xx() = eqns.evaluateScalar("tOut.xx");
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tensorOut.xy() = eqns.evaluateScalar("tOut.xy");
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tensorOut.xz() = eqns.evaluateScalar("tOut.xz");
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tensorOut.yx() = eqns.evaluateScalar("tOut.yx");
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tensorOut.yy() = eqns.evaluateScalar("tOut.yy");
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tensorOut.yz() = eqns.evaluateScalar("tOut.yz");
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tensorOut.zx() = eqns.evaluateScalar("tOut.zx");
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tensorOut.zy() = eqns.evaluateScalar("tOut.zy");
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tensorOut.zz() = eqns.evaluateScalar("tOut.zz");
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dimensionedTensorOut.value().xx() = eqns.evaluateScalar("dtOut.xx");
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dimensionedTensorOut.value().xy() = eqns.evaluateScalar("dtOut.xy");
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dimensionedTensorOut.value().xz() = eqns.evaluateScalar("dtOut.xz");
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dimensionedTensorOut.value().yx() = eqns.evaluateScalar("dtOut.yx");
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dimensionedTensorOut.value().yy() = eqns.evaluateScalar("dtOut.yy");
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dimensionedTensorOut.value().yz() = eqns.evaluateScalar("dtOut.yz");
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dimensionedTensorOut.value().zx() = eqns.evaluateScalar("dtOut.zx");
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dimensionedTensorOut.value().zy() = eqns.evaluateScalar("dtOut.zy");
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dimensionedTensorOut.value().zz() = eqns.evaluateScalar("dtOut.zz");
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// There is currently no elegant way to check the dimensions of each
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// component of a "dimensionedType". (dimensionedTypeFields and
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// GeometricTypeFields work automatically, though.) This is how we do
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// it:
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dimensionedTensorOut.dimensions() = eqns.evaluateDimensions("dtOut.xx");
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dimensionedTensorOut.dimensions() = eqns.evaluateDimensions("dtOut.xy");
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dimensionedTensorOut.dimensions() = eqns.evaluateDimensions("dtOut.xz");
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dimensionedTensorOut.dimensions() = eqns.evaluateDimensions("dtOut.yx");
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dimensionedTensorOut.dimensions() = eqns.evaluateDimensions("dtOut.yy");
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dimensionedTensorOut.dimensions() = eqns.evaluateDimensions("dtOut.yz");
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dimensionedTensorOut.dimensions() = eqns.evaluateDimensions("dtOut.zx");
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dimensionedTensorOut.dimensions() = eqns.evaluateDimensions("dtOut.zy");
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dimensionedTensorOut.dimensions() = eqns.evaluateDimensions("dtOut.zz");
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eqns.evaluateDimensionedTypeField
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(
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dimensionedTensorFieldOut,
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"xx",
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"dtfOut.xx"
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);
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eqns.evaluateDimensionedTypeField
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(
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dimensionedTensorFieldOut,
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"xy",
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"dtfOut.xy"
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);
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eqns.evaluateDimensionedTypeField
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(
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dimensionedTensorFieldOut,
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"xz",
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"dtfOut.xz"
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);
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eqns.evaluateDimensionedTypeField
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(
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dimensionedTensorFieldOut,
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"yx",
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"dtfOut.yx"
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);
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eqns.evaluateDimensionedTypeField
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(
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dimensionedTensorFieldOut,
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"yy",
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"dtfOut.yy"
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);
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eqns.evaluateDimensionedTypeField
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(
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dimensionedTensorFieldOut,
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"yz",
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"dtfOut.yz"
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);
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eqns.evaluateDimensionedTypeField
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(
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dimensionedTensorFieldOut,
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"zx",
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"dtfOut.zx"
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);
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eqns.evaluateDimensionedTypeField
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(
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dimensionedTensorFieldOut,
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"zy",
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"dtfOut.zy"
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);
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eqns.evaluateDimensionedTypeField
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(
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dimensionedTensorFieldOut,
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"zz",
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"dtfOut.zz"
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);
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eqns.evaluateGeometricTypeField(volTensorFieldOut, "xx", "volTfOut.xx");
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eqns.evaluateGeometricTypeField(volTensorFieldOut, "xy", "volTfOut.xy");
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eqns.evaluateGeometricTypeField(volTensorFieldOut, "xz", "volTfOut.xz");
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eqns.evaluateGeometricTypeField(volTensorFieldOut, "yx", "volTfOut.yx");
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eqns.evaluateGeometricTypeField(volTensorFieldOut, "yy", "volTfOut.yy");
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eqns.evaluateGeometricTypeField(volTensorFieldOut, "yz", "volTfOut.yz");
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eqns.evaluateGeometricTypeField(volTensorFieldOut, "zx", "volTfOut.zx");
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eqns.evaluateGeometricTypeField(volTensorFieldOut, "zy", "volTfOut.zy");
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eqns.evaluateGeometricTypeField(volTensorFieldOut, "zz", "volTfOut.zz");
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// Update the equation output dictionary
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eqnOutputDict.set("sOut", scalarOut);
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eqnOutputDict.set("dsOut", dimensionedScalarOut);
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eqnOutputDict.set("vOut", vectorOut);
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eqnOutputDict.set("dvOut", dimensionedVectorOut);
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eqnOutputDict.set("tOut", tensorOut);
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eqnOutputDict.set("dtOut", dimensionedTensorOut);
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