public static String valueToNotationString(Object val, org.openprovenance.prov.model.QualifiedName xsdType) { if (val instanceof LangString) { LangString istring = (LangString) val; return "\"" + istring.getValue() + ((istring.getLang()==null) ? "\"" : "\"@" + istring.getLang()) + (((xsdType==null)||(xsdType.getUri().equals(internationalizedStringUri)))? "" : " %% " + Namespace.qualifiedNameToStringWithNamespace(xsdType)); } else if (val instanceof QualifiedName) { QualifiedName qn = (QualifiedName) val; return "'" + Namespace.qualifiedNameToStringWithNamespace(qn) + "'"; } else if (val instanceof String) { String s=(String)val; if (s.contains("\n")) { return "\"\"\"" + escape(s) + "\"\"\"" ; } else { //FIXME: It's here that we should detect an int and generate the compact form: e.g. 1 instand of 1 %% xsd:int // However dictionaries failed to be parsed then //if (xsdType.getLocalPart().equals("int")) { //FIXME:need to properly compare with xsd:int // return s; //} else { return "\"" + escape(s) + ((xsdType==null)? "\"" : "\" %% " + Namespace.qualifiedNameToStringWithNamespace(xsdType)); //} } } else { // We should never be here! return "\"" + val + "\" %% " + Namespace.qualifiedNameToStringWithNamespace(xsdType); } }
public static String valueToNotationString(Object val, org.openprovenance.prov.model.QualifiedName xsdType) { if (val instanceof LangString) { LangString istring = (LangString) val; return "\"" + istring.getValue() + ((istring.getLang()==null) ? "\"" : "\"@" + istring.getLang()) + (((xsdType==null)||(xsdType.getUri().equals(internationalizedStringUri)))? "" : " %% " + Namespace.qualifiedNameToStringWithNamespace(xsdType)); } else if (val instanceof QualifiedName) { QualifiedName qn = (QualifiedName) val; return "'" + Namespace.qualifiedNameToStringWithNamespace(qn) + "'"; } else if (val instanceof String) { String s=(String)val; if (s.contains("\n")) { return "\"\"\"" + escape(s) + "\"\"\"" ; } else { //FIXME: It's here that we should detect an int and generate the compact form: e.g. 1 instand of 1 %% xsd:int // However dictionaries failed to be parsed then //if (xsdType.getLocalPart().equals("int")) { //FIXME:need to properly compare with xsd:int // return s; //} else { return "\"" + escape(s) + ((xsdType==null)? "\"" : "\" %% " + Namespace.qualifiedNameToStringWithNamespace(xsdType)); //} } } else { // We should never be here! return "\"" + val + "\" %% " + Namespace.qualifiedNameToStringWithNamespace(xsdType); } }
private LITERAL valueToLiteral(TypedValue val) { LITERAL lit = null; String value; if (val.getValue() instanceof QualifiedName) { value = Namespace.qualifiedNameToStringWithNamespace((QualifiedName) val.getValue()); lit = gb.newLiteral(value, val.getType()); } else if (val.getValue() instanceof LangString) { LangString iString=(LangString) val.getValue(); lit = gb.newLiteral(iString.getValue(), iString.getLang()); } else { value = val.getValue().toString(); lit = gb.newLiteral(value, val.getType()); } return lit; }
private LITERAL valueToLiteral(TypedValue val) { LITERAL lit = null; String value; if (val.getValue() instanceof QualifiedName) { value = Namespace.qualifiedNameToStringWithNamespace((QualifiedName) val.getValue()); lit = gb.newLiteral(value, val.getType()); } else if (val.getValue() instanceof LangString) { LangString iString=(LangString) val.getValue(); lit = gb.newLiteral(iString.getValue(), iString.getLang()); } else { value = val.getValue().toString(); lit = gb.newLiteral(value, val.getType()); } return lit; }