192 lines
5.2 KiB
C
192 lines
5.2 KiB
C
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// Initializing the scalarFields
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forAll(sfA, cellIndex)
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{
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scalar cellValue(scalar(cellIndex) / 100000);
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sfA[cellIndex] = 10 + cellValue;
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sfB[cellIndex] = 20 + cellValue;
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sfC[cellIndex] = 30 + cellValue;
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}
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// Initializing the volScalarFields
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label globalI(0);
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forAll(vsfA.internalField(), cellIndex)
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{
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scalar cellValue(scalar(globalI) / 100000);
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vsfA.internalField()[cellIndex] = 40 + cellValue;
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vsfB.internalField()[cellIndex] = 50 + cellValue;
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vsfC.internalField()[cellIndex] = 60 + cellValue;
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globalI++;
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}
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forAll(vsfA.boundaryField(), geoIndex)
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{
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forAll(vsfA.boundaryField()[geoIndex], cellIndex)
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{
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scalar cellValue(scalar(globalI) / 100000);
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vsfA.boundaryField()[geoIndex][cellIndex] = 40 + cellValue;
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vsfB.boundaryField()[geoIndex][cellIndex] = 50 + cellValue;
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vsfC.boundaryField()[geoIndex][cellIndex] = 60 + cellValue;
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globalI++;
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}
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}
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// Initializing the vectorFields
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forAll(vfA, cellIndex)
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{
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scalar cellValue(scalar(cellIndex) / 100000);
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vfA[cellIndex] = vector
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(
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1000 + cellValue,
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1000 + cellValue,
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1000 + cellValue
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);
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vfB[cellIndex] = vector
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(
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2000 + cellValue,
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-2000 - cellValue,
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2000 + cellValue
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);
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vfC[cellIndex] = vector
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(
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3000 + cellValue,
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3000 + cellValue,
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-3000 - cellValue
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);
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}
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// Initializing the volVectorFields
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globalI = 0;
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forAll(vvfA.internalField(), cellIndex)
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{
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scalar cellValue(scalar(globalI) / 100000);
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vvfA.internalField()[cellIndex] = vector
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(
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4000 + cellValue,
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4000 + cellValue,
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4000 + cellValue
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);
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vvfB.internalField()[cellIndex] = vector
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(
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5000 + cellValue,
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-5000 - cellValue,
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5000 + cellValue
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);
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vvfC.internalField()[cellIndex] = vector
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(
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6000 + cellValue,
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6000 + cellValue,
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-6000 - cellValue
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);
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globalI++;
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}
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forAll(vvfA.boundaryField(), geoIndex)
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{
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forAll(vvfA.boundaryField()[geoIndex], cellIndex)
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{
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scalar cellValue(scalar(globalI) / 100000);
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vvfA.boundaryField()[geoIndex][cellIndex] = vector
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(
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4000 + cellValue,
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4000 + cellValue,
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4000 + cellValue
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);
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vvfB.boundaryField()[geoIndex][cellIndex] = vector
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(
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5000 + cellValue,
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-5000 - cellValue,
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5000 + cellValue
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);
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vvfC.boundaryField()[geoIndex][cellIndex] = vector
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(
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6000 + cellValue,
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6000 + cellValue,
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-6000 - cellValue
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);
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globalI++;
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}
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}
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// Initializing the tensorFields
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forAll(tfA, cellIndex)
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{
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scalar cellValue(scalar(cellIndex) / 100000);
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scalar tA(cellValue + 100000);
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scalar tB(cellValue + 200000);
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scalar tC(cellValue + 300000);
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tfA[cellIndex] = tensor
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(
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tA, -tA, tA,
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-tA, tA, -tA,
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tA, -tA, tA
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);
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tfB[cellIndex] = tensor
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(
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tB, tB, -tB,
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tB, -tB, tB,
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-tB, tB, -tB
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);
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tfC[cellIndex] = tensor
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(
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tC, tC, -tC,
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-tC, tC, tC,
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-tC, -tC, tC
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);
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}
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// Initializing the volTectorFields
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globalI = 0;
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forAll(vtfA.internalField(), cellIndex)
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{
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scalar cellValue(scalar(globalI) / 100000);
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scalar tA(cellValue + 400000);
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scalar tB(cellValue + 500000);
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scalar tC(cellValue + 600000);
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vtfA.internalField()[cellIndex] = tensor
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(
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tA, -tA, tA,
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-tA, tA, -tA,
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tA, -tA, tA
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);
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vtfB.internalField()[cellIndex] = tensor
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(
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tB, tB, -tB,
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tB, -tB, tB,
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-tB, tB, -tB
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);
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vtfC.internalField()[cellIndex] = tensor
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(
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tC, tC, -tC,
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-tC, tC, tC,
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-tC, -tC, tC
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);
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globalI++;
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}
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forAll(vtfA.boundaryField(), geoIndex)
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{
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forAll(vtfA.boundaryField()[geoIndex], cellIndex)
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{
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scalar cellValue(scalar(globalI) / 100000);
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scalar tA(cellValue + 400000);
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scalar tB(cellValue + 500000);
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scalar tC(cellValue + 600000);
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vtfA.boundaryField()[geoIndex][cellIndex] = tensor
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(
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tA, -tA, tA,
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-tA, tA, -tA,
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tA, -tA, tA
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);
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vtfB.boundaryField()[geoIndex][cellIndex] = tensor
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(
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tB, tB, -tB,
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tB, -tB, tB,
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-tB, tB, -tB
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);
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vtfC.boundaryField()[geoIndex][cellIndex] = tensor
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(
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tC, tC, -tC,
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-tC, tC, tC,
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-tC, -tC, tC
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);
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globalI++;
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}
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}
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