// write time values to case file scalar timeCorrection = 0; if (timeDirs[0].value() < 0) { timeCorrection = - timeDirs[0].value(); Info<< "Correcting time values. Adding " << timeCorrection << endl; } // the case file is always ASCII Info << "write case: " << caseFileName.c_str() << endl; OFstream caseFile ( ensightDir/caseFileName, ios_base::out|ios_base::trunc, IOstream::ASCII ); caseFile.setf(ios_base::left); caseFile.setf(ios_base::scientific, ios_base::floatfield); caseFile.precision(5); caseFile << "FORMAT" << nl << setw(16) << "type:" << "ensight gold" << nl << nl; if (hasMovingMesh) { caseFile << "GEOMETRY" << nl << setw(16) << "model: 1" << (dataMask/geometryName).c_str() << nl; } else { caseFile << "GEOMETRY" << nl << setw(16) << "model:" << geometryName << nl; } // add information for clouds // multiple clouds currently require the same time index forAllConstIter(HashTable >, cloudFields, cloudIter) { const word& cloudName = cloudIter.key(); caseFile << setw(16) << "measured: 2" << fileName(dataMask/cloud::prefix/cloudName/"positions").c_str() << nl; } caseFile << nl << "VARIABLE" << nl; forAllConstIter(HashTable, volumeFields, fieldIter) { const word& fieldName = fieldIter.key(); const word& fieldType = fieldIter(); string ensightType; if (fieldType == volScalarField::typeName) { ensightType = "scalar"; } else if (fieldType == volVectorField::typeName) { ensightType = "vector"; } else if (fieldType == volSphericalTensorField::typeName) { ensightType = "tensor symm"; } else if (fieldType == volSymmTensorField::typeName) { ensightType = "tensor symm"; } else if (fieldType == volTensorField::typeName) { ensightType = "tensor asym"; } if (ensightType.size()) { ensightCaseEntry ( caseFile, ensightType, fieldName, dataMask ); } } // TODO: allow similar/different time-steps for each cloud label cloudNo = 0; forAllConstIter(HashTable >, cloudFields, cloudIter) { const word& cloudName = cloudIter.key(); forAllConstIter(HashTable, cloudIter(), fieldIter) { const word& fieldName = fieldIter.key(); const word& fieldType = fieldIter(); string ensightType; if (fieldType == scalarIOField::typeName) { ensightType = "scalar"; } else if (fieldType == vectorIOField::typeName) { ensightType = "vector"; } else if (fieldType == tensorIOField::typeName) { ensightType = "tensor"; } if (ensightType.size()) { ensightCaseEntry ( caseFile, ensightType, fieldName, dataMask, cloud::prefix/cloudName, cloudNo, 2 ); } } cloudNo++; } // add time values caseFile << nl << "TIME" << nl; // time set 1 - geometry and volume fields if (fieldTimesUsed.size()) { caseFile << "time set: " << 1 << nl << "number of steps: " << fieldTimesUsed.size() << nl << "filename numbers:" << nl; label count = 0; forAll (fieldTimesUsed, i) { caseFile << " " << setw(12) << fieldTimesUsed[i]; if (++count % 6 == 0) { caseFile << nl; } } caseFile << nl << "time values:" << nl; count = 0; forAll (fieldTimesUsed, i) { caseFile << " " << setw(12) << timeIndices[fieldTimesUsed[i]] + timeCorrection; if (++count % 6 == 0) { caseFile << nl; } } caseFile << nl << nl; } // TODO: allow similar/different time-steps for each cloud cloudNo = 0; forAllConstIter(HashTable >, cloudTimesUsed, cloudIter) { // const word& cloudName = cloudIter.key(); const DynamicList& timesUsed = cloudIter(); if (timesUsed.size() && cloudNo == 0) { caseFile << "time set: " << 2 << nl << "number of steps: " << timesUsed.size() << nl << "filename numbers:" << nl; label count = 0; forAll (timesUsed, i) { caseFile << " " << setw(12) << timesUsed[i]; if (++count % 6 == 0) { caseFile << nl; } } caseFile << nl << "time values:" << nl; count = 0; forAll (timesUsed, i) { caseFile << " " << setw(12) << timeIndices[timesUsed[i]] + timeCorrection; if (++count % 6 == 0) { caseFile << nl; } } caseFile << nl << nl; cloudNo++; } } caseFile << "# end" << nl;