/* Main function */ int main (int argc, char *argv[]) { int temp_return; // Initially set temp_return equal to 0. temp_return = 0; if (argc == 1) { // If the user does not enter any arguments. temp_return = usage(); } else if (argc == 2) { // If the user only enters a filename. temp_return = findStrings(argv[1], 4); } else if ((argc % 2) == 1) { // If the user enters an invalid number of arguments. 2 arguments for program name and filename, and then 2 more if a switch is used. printf("Invalid number of arguments!\n"); } else if (((strcmp(argv[1],"-n")) == 0) && ( argc == 4)) { // If the minlen switch was used to specify a minlen. temp_return = findStrings(argv[3], atoi(argv[2])); } // If a bad filename was provided by the user. if (temp_return == 1) { printf("Bad file!\n"); } return temp_return; }
Foam::label Foam::sampledSurfaces::classifyFields() { label nFields = 0; clearFieldGroups(); // check files for a particular time if (loadFromFiles_) { IOobjectList objects(mesh_, mesh_.time().timeName()); wordList allFields = objects.sortedNames(); labelList indices = findStrings(fieldSelection_, allFields); forAll(indices, fieldI) { const word& fieldName = allFields[indices[fieldI]]; nFields += appendFieldGroup ( fieldName, objects.find(fieldName)()->headerClassName() ); } } else {
Foam::label Foam::sampledSurfaces::classifyFields() { label nFields = 0; if (loadFromFiles_) { // Check files for a particular time IOobjectList objects(mesh_, mesh_.time().timeName()); wordList allFields = objects.sortedNames(); forAll(fieldSelection_, i) { labelList indices = findStrings(fieldSelection_[i], allFields); if (indices.size()) { nFields += indices.size(); } else { WarningInFunction << "Cannot find field file matching " << fieldSelection_[i] << endl; } } }
Foam::patchInteractionDataList::patchInteractionDataList ( const polyMesh& mesh, const dictionary& dict ) : List<patchInteractionData>(dict.lookup("patches")), patchGroupIDs_(this->size()) { const polyBoundaryMesh& bMesh = mesh.boundaryMesh(); const wordList allPatchNames = bMesh.names(); const List<patchInteractionData>& items = *this; forAllReverse(items, i) { const word& patchName = items[i].patchName(); labelList patchIDs = findStrings(patchName, allPatchNames); if (patchIDs.empty()) { WarningInFunction << "Cannot find any patch names matching " << patchName << endl; } patchGroupIDs_[i].transfer(patchIDs); } // Check that all patches are specified DynamicList<word> badPatches; forAll(bMesh, patchI) { const polyPatch& pp = bMesh[patchI]; if ( !pp.coupled() && !isA<emptyPolyPatch>(pp) && !isA<cyclicAMIPolyPatch>(pp) && applyToPatch(pp.index()) < 0 ) { badPatches.append(pp.name()); } } if (badPatches.size() > 0) { FatalErrorInFunction << "All patches must be specified when employing local patch " << "interaction. Please specify data for patches:" << nl << badPatches << nl << exit(FatalError); } }
/* * main function of the program */ int main(int argc, char *argv[]) { long inputFileSize = 0; int targetStringCount = 0; // check arguments checkArgs(argc, argv); // get input file size getFileSize(argv[1], &inputFileSize); // find target strings findStrings(argv[1], inputFileSize, argv[2], &targetStringCount); // print the result printResult(inputFileSize, targetStringCount, argv[3]); return 0; }
forAll(indices, fieldI) { const word& fieldName = allFields[indices[fieldI]]; nFields += appendFieldGroup ( fieldName, objects.find(fieldName)()->headerClassName() ); } } else { wordList allFields = mesh_.sortedNames(); labelList indices = findStrings(fieldSelection_, allFields); forAll(indices, fieldI) { const word& fieldName = allFields[indices[fieldI]]; nFields += appendFieldGroup ( fieldName, mesh_.find(fieldName)()->type() ); } } return nFields; }