void Foam::fv::CodedSource<Type>::prepare ( dynamicCode& dynCode, const dynamicCodeContext& context ) const { word sourceType(pTraits<Type>::typeName); // Set additional rewrite rules dynCode.setFilterVariable("typeName", name_); dynCode.setFilterVariable("TemplateType", sourceType); dynCode.setFilterVariable("SourceType", sourceType + "Source"); //dynCode.removeFilterVariable("code"); dynCode.setFilterVariable("codeCorrect", codeCorrect_); dynCode.setFilterVariable("codeAddSup", codeAddSup_); dynCode.setFilterVariable("codeSetValue", codeSetValue_); // compile filtered C template dynCode.addCompileFile("codedFvOptionTemplate.C"); // copy filtered H template dynCode.addCopyFile("codedFvOptionTemplate.H"); // debugging: make BC verbose // dynCode.setFilterVariable("verbose", "true"); // Info<<"compile " << name_ << " sha1: " // << context.sha1() << endl; // define Make/options dynCode.setMakeOptions ( "EXE_INC = -g \\\n" "-I$(LIB_SRC)/finiteVolume/lnInclude \\\n" "-I$(LIB_SRC)/meshTools/lnInclude \\\n" "-I$(LIB_SRC)/sampling/lnInclude \\\n" "-I$(LIB_SRC)/fvOptions/lnInclude \\\n" + context.options() + "\n\nLIB_LIBS = \\\n" + " -lmeshTools \\\n" + " -lfvOptions \\\n" + " -lsampling \\\n" + " -lfiniteVolume \\\n" + context.libs() ); }
void Foam::codedFunctionObject::prepare ( dynamicCode& dynCode, const dynamicCodeContext& context ) const { // Set additional rewrite rules dynCode.setFilterVariable("typeName", redirectType_); dynCode.setFilterVariable("codeRead", codeRead_); dynCode.setFilterVariable("codeExecute", codeExecute_); dynCode.setFilterVariable("codeEnd", codeEnd_); dynCode.setFilterVariable("codeData", codeData_); dynCode.setFilterVariable("codeTimeSet", codeTimeSet_); //dynCode.setFilterVariable("codeWrite", codeWrite_); // compile filtered C template dynCode.addCompileFile("functionObjectTemplate.C"); dynCode.addCompileFile("FilterFunctionObjectTemplate.C"); // copy filtered H template dynCode.addCopyFile("FilterFunctionObjectTemplate.H"); dynCode.addCopyFile("functionObjectTemplate.H"); dynCode.addCopyFile("IOfunctionObjectTemplate.H"); // debugging: make BC verbose // dynCode.setFilterVariable("verbose", "true"); // Info<<"compile " << redirectType_ << " sha1: " // << context.sha1() << endl; // define Make/options dynCode.setMakeOptions ( "EXE_INC = -g \\\n" "-I$(LIB_SRC)/finiteVolume/lnInclude \\\n" "-I$(LIB_SRC)/meshTools/lnInclude \\\n" + context.options() + "\n\nLIB_LIBS = \\\n" + " -lOpenFOAM \\\n" + " -lfiniteVolume \\\n" + " -lmeshTools \\\n" + context.libs() ); }
void Foam::codedFixedValueFvPatchField<Type>::prepare ( dynamicCode& dynCode, const dynamicCodeContext& context ) const { // take no chances - typeName must be identical to redirectType_ dynCode.setFilterVariable("typeName", redirectType_); // set TemplateType and FieldType filter variables // (for fvPatchField) setFieldTemplates(dynCode); // compile filtered C template dynCode.addCompileFile(codeTemplateC); // copy filtered H template dynCode.addCopyFile(codeTemplateH); // debugging: make BC verbose // dynCode.setFilterVariable("verbose", "true"); // Info<<"compile " << redirectType_ << " sha1: " // << context.sha1() << endl; // define Make/options dynCode.setMakeOptions ( "EXE_INC = -g \\\n" "-I$(LIB_SRC)/finiteVolume/lnInclude \\\n" + context.options() + "\n\nLIB_LIBS = \\\n" + " -lOpenFOAM \\\n" + " -lfiniteVolume \\\n" + context.libs() ); }
void Foam::codedFunctionObject::createLibrary ( dynamicCode& dynCode, const dynamicCodeContext& context ) const { bool create = Pstream::master(); if (create) { // Write files for new library if (!dynCode.upToDate(context)) { // filter with this context dynCode.reset(context); // Set additional rewrite rules dynCode.setFilterVariable("typeName", redirectType_); dynCode.setFilterVariable("codeRead", codeRead_); dynCode.setFilterVariable("codeExecute", codeExecute_); dynCode.setFilterVariable("codeEnd", codeEnd_); //dynCode.setFilterVariable("codeWrite", codeWrite_); // compile filtered C template dynCode.addCompileFile("functionObjectTemplate.C"); dynCode.addCompileFile("FilterFunctionObjectTemplate.C"); // copy filtered H template dynCode.addCopyFile("FilterFunctionObjectTemplate.H"); dynCode.addCopyFile("functionObjectTemplate.H"); dynCode.addCopyFile("IOfunctionObjectTemplate.H"); // debugging: make BC verbose // dynCode.setFilterVariable("verbose", "true"); // Info<<"compile " << redirectType_ << " sha1: " // << context.sha1() << endl; // define Make/options dynCode.setMakeOptions ( "EXE_INC = -g \\\n" "-I$(LIB_SRC)/finiteVolume/lnInclude \\\n" + context.options() + "\n\nLIB_LIBS = \\\n" + " -lOpenFOAM \\\n" + " -lfiniteVolume \\\n" + context.libs() ); if (!dynCode.copyOrCreateFiles(true)) { FatalIOErrorIn ( "codedFunctionObject::createLibrary(..)", context.dict() ) << "Failed writing files for" << nl << dynCode.libRelPath() << nl << exit(FatalIOError); } } if (!dynCode.wmakeLibso()) { FatalIOErrorIn ( "codedFunctionObject::createLibrary(..)", context.dict() ) << "Failed wmake " << dynCode.libRelPath() << nl << exit(FatalIOError); } } // all processes must wait for compile to finish reduce(create, orOp<bool>()); }
void Foam::codedFixedValueFvPatchField<Type>::createLibrary ( dynamicCode& dynCode, const dynamicCodeContext& context ) const { bool create = Pstream::master(); if (create) { // Write files for new library if (!dynCode.upToDate(context)) { // filter with this context dynCode.reset(context); // take no chances - typeName must be identical to redirectType_ dynCode.setFilterVariable("typeName", redirectType_); // set TemplateType and FieldType filter variables // (for fvPatchField) setFieldTemplates(dynCode); // compile filtered C template dynCode.addCompileFile(codeTemplateC); // copy filtered H template dynCode.addCopyFile(codeTemplateH); // debugging: make BC verbose // dynCode.setFilterVariable("verbose", "true"); // Info<<"compile " << redirectType_ << " sha1: " // << context.sha1() << endl; // define Make/options dynCode.setMakeOptions ( "EXE_INC = -g \\\n" "-I$(LIB_SRC)/finiteVolume/lnInclude \\\n" + context.options() + "\n\nLIB_LIBS = \\\n" + " -lOpenFOAM \\\n" + " -lfiniteVolume \\\n" + context.libs() ); if (!dynCode.copyOrCreateFiles(true)) { FatalIOErrorIn ( "codedFixedValueFvPatchField<Type>::createLibrary(..)", context.dict() ) << "Failed writing files for" << nl << dynCode.libRelPath() << nl << exit(FatalIOError); } } if (!dynCode.wmakeLibso()) { FatalIOErrorIn ( "codedFixedValueFvPatchField<Type>::createLibrary(..)", context.dict() ) << "Failed wmake " << dynCode.libRelPath() << nl << exit(FatalIOError); } } // all processes must wait for compile to finish reduce(create, orOp<bool>()); }