void UmlActivityObject::import_it(FileIn & in, Token & token) { if (token.valueOf("iscontroltype") == "true") set_IsControlType(TRUE); WrapperStr s; if (!(s = token.valueOf("ordering")).isEmpty()) setOrdering(s, in); if (!(s = token.valueOf("selection")).isEmpty()) setSelection(s); if (!(s = token.valueOf("instate")).isEmpty()) setInState(s); if (!(s = token.valueOf("type")).isEmpty()) setType(s); if (! token.closed()) { WrapperStr k = token.what(); const char * kstr = k; while (in.read(), !token.close(kstr)) { s = token.what(); if (s == "selection") { setSelection(token.xmiIdref()); if (! token.closed()) in.finish(s); } else if (s == "instate") { setInState(token.xmiIdref()); if (! token.closed()) in.finish(s); } else if (s == "type") { setType(token); if (! token.closed()) in.finish(s); } else if (s == "lowervalue") importMultiplicity(in, token, FALSE); else if (s == "uppervalue") importMultiplicity(in, token, TRUE); else if (s == "upperbound") { if (! token.closed()) in.finish(s); } else UmlItem::import(in, token); } } }
void UmlActivityParameter::readParameterNode(FileIn & in, Token & token) { QCString s; if (token.valueOf("iscontroltype") == "true") set_IsControlType(TRUE); if (!(s = token.valueOf("ordering")).isEmpty()) setOrdering(s, in); if (!(s = token.valueOf("instate")).isEmpty()) setInState(s); if (!(s = token.valueOf("selection")).isEmpty()) setSelection(s); if (!(s = token.valueOf("type")).isEmpty()) setType(s); if (!token.closed()) { QCString k = token.what(); const char * kstr = k; while (in.read(), !token.close(kstr)) { s = token.what(); if (s == "selection") { setSelection(token.xmiIdref()); if (! token.closed()) in.finish(s); } else if (s == "instate") { setInState(token.xmiIdref()); if (! token.closed()) in.finish(s); } else if (s == "type") { setType(token); if (! token.closed()) in.finish(s); } else UmlItem::import(in, token); } } }