string Element::renderChildren() { string rend; ElementList elements = this->getChildElements(); for(unsigned int i=0;i<elements.size();i++) { rend.append(elements.at(i).render()); } return rend; }
void View::traverseElement(string *ss, Element* element) { ss->append(generateStartOpenTag(element->getTagName())); ss->append(generateAttributes(element->getAttributes())); ss->append(generateEndOpenTag()); ss->append(element->getText()); ElementList elements = element->getChildElements(); for(unsigned int i=0;i<elements.size();i++) { traverseElement(ss, elements.at(i)); } ss->append(generateCloseTag(element->getTagName())); }
std::string Document::render() { std::string rend = this->docType; rend.append(generateStartOpenTag(this->root.getTagName())); rend.append(generateAttributes(this->root.getAttributes())); rend.append(generateEndOpenTag()); rend.append(this->root.getText()); ElementList elements = this->root.getChildElements(); for(unsigned int i=0;i<elements.size();i++) { rend.append(elements.at(i)->render()); } rend.append(generateCloseTag(this->root.getTagName())); return rend; }
void Element::validateNs() { if(nameSpace=="" || isValidNamespace(this, nameSpace)) { ElementList elements = this->getChildElements(); for(unsigned int i=0;i<elements.size();i++) { elements.at(i).parent = this; elements.at(i).validateNs(); } } else { throw ("No namespace definition found - xmlns:" + nameSpace); } }
string Element::render() { string rend; rend.append(generateStartOpenTag(this->getTagName())); rend.append(generateAttributes(this->getAttributes())); //rend.append(generateAttributes(this->namespaces)); rend.append(generateEndOpenTag()); rend.append(this->getText()); ElementList elements = this->getChildElements(); for(unsigned int i=0;i<elements.size();i++) { rend.append(elements.at(i).render()); } rend.append(generateCloseTag(this->getTagName())); return rend; }
string Element::renderSerialization() { string rend; rend.append(generateStartOpenTag(this->getTagName())); rend.append(generateAttributes(this->getAttributes())); //rend.append(" namespace=\""+getNameSpcValue()+"\""); rend.append(generateEndOpenTag()); rend.append(this->getText()); ElementList elements = this->getChildElements(); for(unsigned int i=0;i<elements.size();i++) { rend.append(elements.at(i)->renderSerialization()); } rend.append(generateCloseTag(this->getTagName())); return rend; }
Element* Document::getElementByName(const std::string& name, Element* ele) { if(ele->getTagName()==name) return ele; else { ElementList chi = ele->getChildElements(); for(unsigned int i=0;i<chi.size();i++) { Element* ele1 = getElementByName(name, chi.at(i)); if(ele1!=NULL) { return ele1; } } } return NULL; }
void OlaVB::initialize(ElementList& elements,unsigned int num,OlaVBParam::VBO_TYPE vbot) { release(); mVertnum = num; mVertstride = 0; mElements.clear(); for (unsigned int i = 0 ; i < elements.size() ; i++) { OlaVBParam::VB_ELEMENT_TYPE type = elements[i]; mElementPos[type] = i; int stride = OlaVBParam::getVertexElementStride(type); if(stride != -1) mVertstride += stride; int offset = 0; for (unsigned int j = 0 ; j < i ; j++) { OlaVBParam::VB_ELEMENT_TYPE type_per = elements[j]; int stride_per = OlaVBParam::getVertexElementStride(type_per); assert(stride_per != -1); offset += stride_per; } if(i == 0) mElementOffset[type] = 0; else if(offset != 0) mElementOffset[type] = offset; else mElementOffset[type] = -1; mElements.push_back(type); } if(mVertstride != 0 && mVertnum != 0) { mBuffer = malloc(mVertstride * mVertnum); } mVBOType = vbot; }
std::string ApplicationUtil::buildAllApplications(const std::vector<std::string>& files, const std::vector<std::string>& apps) { std::string headers = "#include \"fstream\"\n#include \"string\"\n#include \"HttpSession.h\"\n#include \"CastUtil.h\"\n\n"; std::string code; std::string meth,methdef,vars; for (unsigned int var = 0; var < files.size(); ++var) { std::string path = files.at(var).substr(0,files.at(var).find_last_of("/")+1); std::string appName = apps.at(var).substr(0,apps.at(var).find_last_of("/")); XmlParser parser("Parser"); Document doc; parser.readDocument(files.at(var), doc); const Element& root = doc.getRootElement(); ElementList eles = root.getChildElements(); if(eles.size()==0) { ConfigurationData::getInstance()->applicationFlowMap[appName] = false; } else { meth += "std::string "+appName+"checkRules(std::string to,HttpSession session)\n{\nstd::string curr=session.getAttribute(\"CURR\");\n"; for (unsigned int var = 0; var < eles.size(); var++) { if(eles.at(var)->getTagName()=="include") { std::string inc = eles.at(var)->getText(); strVec incs; StringUtil::split(incs, inc, (" ")); for (unsigned int i = 0; i < incs.size(); i++) { headers += ("#include \"" + incs.at(i) + "\"\n"); } } else if(eles.at(var)->getTagName()=="page" || eles.at(var)->getTagName()=="welcome") { meth += ("std::string " + eles.at(var)->getAttribute("id") + " = \""+path+eles.at(var)->getAttribute("path")+"\";\n"); if(eles.at(var)->getAttribute("who")!="" && eles.at(var)->getAttribute("where")!="") { if(eles.at(var)->getAttribute("where").find("FILE:")!=std::string::npos) { std::string fileName = eles.at(var)->getAttribute("where"); StringUtil::replaceFirst(fileName,"FILE:",""); fileName = (path + fileName); meth += "std::string path;\nif(to=="+eles.at(var)->getAttribute("id")+")\n{"; meth += "std::string user = session.getAttribute(\"USER\");\n"; meth += "std::string pass = session.getAttribute(\"PASS\");\n"; meth += "ifstream f(\""+fileName+"\");\n"; meth += "if(f.is_open())\n{\nstd::string temp;\nwhile(getline(f,temp,'\\n'))\n{\n"; meth += "if(temp==(user+\" \"+pass))\n{\nf.close();path = "+eles.at(var)->getAttribute("id"); meth += ";break;}\n}\nf.close();\n}\nif(path==\"\")\npath=\"FAILED\";\n}\n"; } } else if(eles.at(var)->getAttribute("onsuccess")!="" && eles.at(var)->getAttribute("onfail")!="") { } } else if(eles.at(var)->getTagName()=="rule") { meth += "\nif(to=="+eles.at(var)->getAttribute("topage")+" && curr=="+eles.at(var)->getAttribute("currpage")+")\n{"; ElementList elesc = eles.at(var)->getChildElements(); for (unsigned int var1 = 0; var1 < elesc.size(); var1++) { if(elesc.at(var1)->getTagName()=="execute") { std::string call = elesc.at(var1)->getAttribute("call"); std::string clas = call.substr(0,call.find(".")); std::string method = call.substr(call.find(".")+1); headers += ("#include \""+clas+".h\"\n"); meth += clas + " _object;\n"; std::string args; ElementList elesce = elesc.at(var1)->getChildElements(); for (unsigned int var2 = 0; var2 < elesce.size(); var2++) { meth += (elesce.at(var2)->getTagName() + " _" + CastUtil::lexical_cast<std::string>(var2+1) + " = CastUtil::lexical_cast<"+elesce.at(var2)->getTagName()+">(\""+elesce.at(var2)->getText()+"\");\n"); args += ("_"+CastUtil::lexical_cast<std::string>(var2+1)); if(var2!=elesce.size()-1) args += ","; } if(elesc.at(var1)->getAttribute("rettype")!="" || elesc.at(var1)->getAttribute("rettype")!="void") { meth += (elesc.at(var1)->getAttribute("rettype") + " " + elesc.at(var1)->getAttribute("retname") + " = "); meth += "_object."+method+"("+args+");\n"; } } } meth += "path=to;\n}\n"; } } meth += "return path;}\n"; code += methdef; ConfigurationData::getInstance()->applicationFlowMap[appName] = true; } } code += (headers + "extern \"C\"\n{\n"+vars+meth+"}\n"); return code; }
void* ComponentHandler::service(void* arg) { int fd = *(int*)arg; init(); string methInfo,retValue; _cmp_instance->getServer()->Receive(fd,methInfo,1024); methInfo =methInfo.substr(0,methInfo.find_last_of(">")+1); _cmp_instance->logger << methInfo << flush; try { XmlParser parser("Parser"); _cmp_instance->logger << "\nBean call parsed successfully\n" << flush; if(methInfo.find("lang=\"c++\"")!=string::npos || methInfo.find("lang='c++'")!=string::npos) { Document doc = parser.getDocument(methInfo); Element message = doc.getRootElement(); if(message.getTagName()!="service") { throw new ComponentHandlerException("No service Tag\n",retValue); } if(message.getAttributes().size()<4) { throw new ComponentHandlerException("name,beanName,returnType and lang are mandatory attributes\n",retValue); } else if(message.getAttribute("name")=="") { throw new ComponentHandlerException("name attribute missing\n",retValue); } else if(message.getAttribute("returnType")=="") { throw new ComponentHandlerException("returnType attribute missing\n",retValue); } else if(message.getAttribute("beanName")=="") { throw new ComponentHandlerException("beanName attribute missing\n",retValue); } else if(message.getAttribute("lang")=="") { throw new ComponentHandlerException("lang attribute missing\n",retValue); } if(message.getChildElements().size()!=1) { throw new ComponentHandlerException("message tag should have only one child tag\n",retValue); } else if(message.getChildElements().at(0).getTagName()!="args") { throw new ComponentHandlerException("message tag should have an args child tag\n",retValue); } Serialize ser; Reflector reflector; args argus; vals valus; ElementList argts = message.getChildElements().at(0).getChildElements(); for (unsigned var = 0; var < argts.size(); var++) { void *value = NULL; Element arg = argts.at(var); if(arg.getTagName()!="argument") throw new ComponentHandlerException("Invalid Tag, only argument tag allowed\n",retValue); else if(arg.getAttribute("type")=="") throw new ComponentHandlerException("every argument tag should have a type attribute\n",retValue); if(arg.getText()=="" && arg.getChildElements().size()==0) throw new ComponentHandlerException("argument value missing\n",retValue); if(arg.getAttribute("type")!="") { Element obj = arg.getChildElements().at(0); string objxml = obj.render(); string objClassName = obj.getTagName(); value = ser.unSerializeUnknown(objxml,arg.getAttribute("type")); } argus.push_back(arg.getAttribute("type")); valus.push_back(value); } string className = "Component_"+message.getAttribute("beanName"); _cmp_instance->logger << "\nBean class = " << className << "\n" << flush; string returnType = message.getAttribute("returnType"); string lang = message.getAttribute("lang"); ClassInfo clas = reflector.getClassInfo(className); string methodName = message.getAttribute("name"); _cmp_instance->logger << "\nBean service = " << methodName << "\n" << flush; if(clas.getClassName()=="") { throw new ComponentHandlerException("bean does not exist or is not regsitered\n",retValue); } Method meth = clas.getMethod(methodName,argus); if(meth.getMethodName()=="") { throw new ComponentHandlerException("service does not exist for the bean or the bean does not exist or is not regsitered\n\n",retValue); } else { _cmp_instance->logger << "\nGot Bean service " << methodName << "\n" << flush; args argus; Constructor ctor = clas.getConstructor(argus); void *_temp = reflector.newInstanceGVP(ctor); _cmp_instance->logger << "\nGot Bean " << _temp << "\n" << flush; if(returnType=="void" || returnType=="") { _cmp_instance->logger << "\nVoid return " << "\n" << flush; reflector.invokeMethod<void*>(_temp,meth,valus); retValue = ("<return:void></return:void>"); } else { _cmp_instance->logger << "\nReturn type = "<< returnType << "\n" << flush; if(returnType=="int") { int retv = reflector.invokeMethod<int>(_temp,meth,valus); retValue = ("<return:int>"+CastUtil::lexical_cast<string>(retv)+"</return:int>"); } else if(returnType=="float") { float retv = reflector.invokeMethod<float>(_temp,meth,valus); retValue = ("<return:float>"+CastUtil::lexical_cast<string>(retv)+"</return:float>"); } else if(returnType=="double") { double retv = reflector.invokeMethod<double>(_temp,meth,valus); retValue = ("<return:double>"+CastUtil::lexical_cast<string>(retv)+"</return:double>"); } else if(returnType=="string") { string retv = reflector.invokeMethod<string>(_temp,meth,valus); retValue = ("<return:string>"+retv+"</return:string>"); } else if(returnType!="") { void* retobj = reflector.invokeMethodUnknownReturn(_temp,meth,valus); string oxml = ser.serializeUnknown(retobj,returnType); retValue = ("<return:"+returnType+">"+oxml+"</return:"+returnType+">"); } } } } else { retValue = "<return:exception>This is a C++ daemon</return:exception>"; } _cmp_instance->logger << "\nSending data = "<< retValue << "\n" << flush; if(retValue!="") _cmp_instance->getServer()->Send(fd,retValue); //close(fd); } catch(ComponentHandlerException *e) { _cmp_instance->logger << e->getMessage() << flush; _cmp_instance->getServer()->Send(fd,retValue); close(fd); } catch(...) { _cmp_instance->logger << "exception occurred" << flush; retValue = ("<return:exception>XmlParseException occurred</return:exception>"); _cmp_instance->getServer()->Send(fd,retValue); close(fd); } }
string WsUtil::generateWSDL(string file,map<string, ClassStructure> allclsmap,string resp,string &headers,map<string,string> &wsmap,string appname,string ip_address, Reflection ref) { XmlParser parser("Parser"); Document doc = parser.getDocument(file); Element root = doc.getRootElement(); typedef vector<Element> ElementList; typedef map<string,string> strMap; typedef map<string,strMap> meth_Map; typedef map<string,meth_Map> ws_inp_out_Map; ElementList wsvcs = root.getChildElements(); if(wsvcs.size()==0) return ""; string ws_funcs,obj_mapng,retObj_xml; for(unsigned int ii=0;ii<wsvcs.size();ii++) { ws_inp_out_Map ws_info; meth_Map meth_info; StringContext gcntxt; string ws_name,reqr_res_bind,wsdl_msgs,wsdl_ops,wsdl_bind,wsdl,wsdl_obj_bind; Element ws = wsvcs.at(ii); ws_name = ws.getAttribute("class"); string ows_name = ws_name; StringUtil::replaceAll(ws_name, "::", "_"); if(StringUtil::trimCopy(ws_name)=="") { logger << ("No class name defined for web-service, skipping...") << endl; continue; } if(StringUtil::trimCopy(ws.getAttribute("location"))=="") { logger << ("No location defined for web-service, skipping...") << endl; continue; } gcntxt["WS_NAME"] = ws_name; gcntxt["WS_PATH"] = ws.getAttribute("location"); if(gcntxt["WS_PATH"].at(0)=='/') { gcntxt["WS_PATH"] = gcntxt["WS_PATH"].substr(1); StringUtil::replaceAll(gcntxt["WS_PATH"], "//", "/"); } gcntxt["WS_NMSPC"] = StringUtil::trimCopy(ws.getAttribute("namespace")); logger << ("Web service " + ws_name + " found for appname " + appname) << endl; ClassStructure *clstruct = NULL; map<string, ClassStructure>::iterator it; for (it=allclsmap.begin();it!=allclsmap.end();++it) { if(it->second.getFullyQualifiedClassName()==ws.getAttribute("class")) { clstruct = &it->second; break; } } if(clstruct==NULL) { logger << ("Error generating web-service artifacts, as class "+ws.getAttribute("class") + "not found...") << endl; continue; } if(clstruct->getNamespace()=="" && gcntxt["WS_NMSPC"]=="") { logger << ("No namespace defined for web-service, skipping...") << endl; continue; } if(gcntxt["WS_NMSPC"]=="") { gcntxt["WS_NMSPC"] = clstruct->getNamespace(); } StringUtil::replaceAll(gcntxt["WS_NMSPC"], "::", "."); vector<string> pinfo; bool isOpForSet = false; strVec info = ref.getAfcObjectData(*clstruct,false,pinfo,isOpForSet); headers.append("#include \""+ref.getClassPath(clstruct->getTreatedClassName(true))+"\"\n"); set<string> allnmspcs; map<string, string> trgnms; for(unsigned int i=0;i<info.size();i++) { string temp,temp11; strMap in_out_info; temp = info.at(i); temp11 = temp.substr(temp.find("(")+1); temp = temp.substr(0,temp.find("(")); temp11 = temp11.substr(0, temp11.find(")")); //StringUtil::replaceFirst(temp,"("," "); StringUtil::replaceAll(temp11,";",""); StringUtil::replaceFirst(temp11,")",""); strVec results,results1; StringUtil::split(results, temp, (" ")); RegexUtil::replace(temp11, "[ \\t]*,[ \\t]", ","); StringUtil::split(results1, temp11, (",")); string retType,methName,inp_params; if(results.size()<2) continue; if(results.size()>0 && (results.at(0)==it->second.getTreatedClassName(false) || temp.find("~")!=string::npos)) continue; methName = results.at(1); in_out_info["RETURN"] = ws.getElementByName(methName).getAttribute("outname"); if(in_out_info["RETURN"]=="") in_out_info["RETURN"] = "result"; //logger << in_out_info["RETURN"] << flush; in_out_info["RETURNTYP"] = results.at(0); string xsdobjdef; if(results.at(0).find("vector<")!=string::npos) { string vecn = results.at(0); StringUtil::replaceFirst(vecn,"std::"," "); StringUtil::replaceFirst(vecn,"vector<"," "); StringUtil::replaceFirst(vecn,">"," "); StringUtil::trim(vecn); if(vecn=="int" || vecn=="string" || vecn=="short" || vecn=="float" || vecn=="double" || vecn=="bool" || vecn=="long long" || vecn=="long" || vecn=="unsigned int" || vecn=="unsigned short" || vecn=="unsigned long long" || vecn=="unsigned long") { if(vecn=="long long") { vecn = "long"; } else if(vecn=="unsigned long long") { vecn = "unsignedlong"; } else if(vecn.find("unsigned")==0) { StringUtil::replaceAll(vecn, " ", ""); } else if(vecn=="bool") { vecn = "boolean"; } retType = "\n<xsd:element minOccurs=\"0\" maxOccurs=\"unbounded\" name=\""+in_out_info["RETURN"]+"\" type=\"xsd:"+vecn+"\"/>"; } else { string trgnmspc; string fqcn = ref.getFullyQualifiedClassName(vecn, clstruct->getNamespaces()); if(trgnms.find(fqcn)==trgnms.end()) { xsdobjdef = ref.getXSDDefinitions(allclsmap, fqcn, ref, appname, trgnmspc, allnmspcs, gcntxt["WS_NMSPC"], resp); trgnms[fqcn] = trgnmspc; } else trgnmspc = trgnms[fqcn]; logger << "in result " + vecn + " " + trgnmspc << endl; if(vecn.find("::")!=string::npos) vecn = vecn.substr(vecn.find_last_of("::")+1); logger << "in result after " + vecn + " " + trgnmspc << endl; retType = "\n<xsd:element minOccurs=\"0\" maxOccurs=\"unbounded\" name=\""+in_out_info["RETURN"]+"\" type=\""+trgnmspc+":"+vecn+"\"/>"; } } else { if(results.at(0)!="void") { if(results.at(0)=="int" || results.at(0)=="string" || results.at(0)=="short" || results.at(0)=="float" || results.at(0)=="double" || results.at(0)=="bool" || results.at(0)=="long long" || results.at(0)=="long" || results.at(0)=="unsigned int" || results.at(0)=="unsigned short" || results.at(0)=="unsigned long long" || results.at(0)=="unsigned long") { if(results.at(0)=="long long") { results.at(0) = "long"; } else if(results.at(0)=="unsigned long long") { results.at(0) = "unsignedlong"; } else if(results.at(0).find("unsigned")==0) { StringUtil::replaceAll(results.at(0), " ", ""); } else if(results.at(0)=="bool") { results.at(0) = "boolean"; } retType = "\n<xsd:element name=\""+in_out_info["RETURN"]+"\" type=\"xsd:"+results.at(0)+"\"/>"; } else { string type = results.at(0); string trgnmspc; string fqcn = ref.getFullyQualifiedClassName(type, clstruct->getNamespaces()); if(trgnms.find(fqcn)==trgnms.end()) { xsdobjdef = ref.getXSDDefinitions(allclsmap, fqcn, ref, appname, trgnmspc, allnmspcs, gcntxt["WS_NMSPC"], resp); trgnms[fqcn] = trgnmspc; } else trgnmspc = trgnms[fqcn]; logger << "in result " + type + " " + trgnmspc << endl; if(type.find("::")!=string::npos) type = type.substr(type.find_last_of("::")+1); logger << "in result after " + type + " " + trgnmspc << endl; retType = "\n<xsd:element name=\""+in_out_info["RETURN"]+"\" type=\""+trgnmspc+":"+type+"\"/>"; } } } wsdl_obj_bind.append(xsdobjdef); for(unsigned int j=0;j<results1.size();j++) { string type; strVec results2; StringUtil::split(results2, results1.at(j), (" ")); if(results2.size()<2) { results2.push_back("in"+CastUtil::lexical_cast<string>(j+1)); } type = results2.at(0); int srn = j; stringstream ss; ss << srn; string te; ss >> te; if(type=="int" || type=="string" || type=="short" || type=="float" || type=="double" || type=="bool" || type=="long long" || type=="long" || type=="unsigned int" || type=="unsigned short" || type=="unsigned long long" || type=="unsigned long") { string ttyp = type; if(type=="long long") { type = "long"; } else if(type=="unsigned long long") { type = "unsignedlong"; } else if(type.find("unsigned")==0) { StringUtil::replaceAll(type, " ", ""); } else if(type=="bool") { type = "boolean"; } inp_params.append("\n<xsd:element name=\""+results2.at(1)+"\" type=\"xsd:"+type+"\"/>"); in_out_info[results2.at(1)] = ttyp; } else if(type!="") { if(results2.size()>=2) { in_out_info[results2.at(1)] = type; } else { logger << ("Invalid thing happening " + results1.at(j)) << endl; } strMap allfs,tyfs; string xsdobjdef, xdstype; if(type.find("vector<")!=string::npos && results2.size()==2) { string vecn = type; StringUtil::replaceFirst(vecn,"vector<"," "); StringUtil::replaceFirst(vecn,"std::"," "); StringUtil::replaceFirst(vecn,">"," "); StringUtil::trim(vecn); if(vecn=="int" || vecn=="short" || vecn=="float" || vecn=="double" || vecn=="bool" || vecn=="long long" || vecn=="long" || vecn=="string" || vecn=="unsigned int" || vecn=="unsigned short" || vecn=="unsigned long long" || vecn=="unsigned long") { if(vecn=="long long") { vecn = "long"; } else if(vecn=="unsigned long long") { vecn = "unsignedlong"; } else if(vecn.find("unsigned")==0) { StringUtil::replaceAll(vecn, " ", ""); } else if(vecn=="bool") { vecn = "boolean"; } type = "std::vector<" + vecn + ">"; inp_params.append("\n<xsd:element minOccurs=\"0\" maxOccurs=\"unbounded\" name=\""+results2.at(1)+"\" type=\"xsd:"+vecn+"\"/>"); } else { string trgnmspc; string fqcn = ref.getFullyQualifiedClassName(vecn, clstruct->getNamespaces()); type = "std::vector<" + fqcn + ">"; if(trgnms.find(fqcn)==trgnms.end()) { xsdobjdef = ref.getXSDDefinitions(allclsmap, fqcn, ref, appname, trgnmspc, allnmspcs, gcntxt["WS_NMSPC"], resp); trgnms[fqcn] = trgnmspc; } else trgnmspc = trgnms[fqcn]; logger << "in result " + vecn + " " + trgnmspc << endl; if(vecn.find("::")!=string::npos) vecn = vecn.substr(vecn.find_last_of("::")+1); logger << "in result after " + vecn + " " + trgnmspc << endl; inp_params.append("\n<xsd:element minOccurs=\"0\" maxOccurs=\"unbounded\" name=\""+results2.at(1)+"\" type=\""+trgnmspc+":"+vecn+"\"/>"); } } else if(results2.size()==2) { string trgnmspc; string fqcn = ref.getFullyQualifiedClassName(type, clstruct->getNamespaces()); if(trgnms.find(fqcn)==trgnms.end()) { xsdobjdef = ref.getXSDDefinitions(allclsmap, fqcn, ref, appname, trgnmspc, allnmspcs, gcntxt["WS_NMSPC"], resp); trgnms[fqcn] = trgnmspc; } else trgnmspc = trgnms[fqcn]; logger << "in result " + type + " " + trgnmspc << endl; if(type.find("::")!=string::npos) type = type.substr(type.find_last_of("::")+1); logger << "in result after " + type + " " + trgnmspc << endl; inp_params.append("\n<xsd:element minOccurs=\"0\" name=\""+results2.at(1)+"\" type=\""+trgnmspc+":"+type+"\"/>"); } wsdl_obj_bind.append(xsdobjdef); } } meth_info[methName] = in_out_info; StringContext cntxt; cntxt["METH_NAME"] = methName; cntxt["RET_TYPE"] = retType; cntxt["INP_PARAMS"] = inp_params; reqr_res_bind.append("\n"+TemplateEngine::evaluate(resp+"templateReqRes.wsdl",cntxt)); wsdl_msgs.append("\n"+TemplateEngine::evaluate(resp+"templateWsdlMsg.wsdl",cntxt)); wsdl_ops.append("\n"+TemplateEngine::evaluate(resp+"templateWsdlOpe.wsdl",cntxt)); wsdl_bind.append("\n"+TemplateEngine::evaluate(resp+"templateWsdlBind.wsdl",cntxt)); } ws_info[ows_name] = meth_info; gcntxt["REQ_RES_BINDING"] = reqr_res_bind; gcntxt["WSDL_MESSAGES"] = wsdl_msgs; gcntxt["WSDL_OPERATIONS"] = wsdl_ops; gcntxt["WSDL_BINDING"] = wsdl_bind; gcntxt["OBJ_BINDING"] = wsdl_obj_bind; string extranmspcs; if(allnmspcs.size()>0) { set<string>::iterator it; for(it=allnmspcs.begin();it!=allnmspcs.end();++it) { string nmspcid = *it; if(nmspcid!="tns") { string nmspcidval = Reflection::getNameSpaceIdValue(nmspcid); if(nmspcidval!="") { extranmspcs.append(" xmlns:" + nmspcid + "=\""+nmspcidval+"\""); } } } } gcntxt["EXTR_NMSPCS"] = extranmspcs; gcntxt["URL"] = "http://" + ip_address + "/" + appname; string wspath = gcntxt["URL"] + "/" + gcntxt["WS_PATH"]; wsmap[wspath] = ws_name; wsdl = TemplateEngine::evaluate(resp+"template.wsdl",gcntxt); AfcUtil::writeTofile(resp+"../web/"+appname+"/public/"+ws_name+".wsdl",wsdl,true); //ws_funcs.append(obj_mapng); //ws_funcs.append(retObj_xml); //ws_funcs.append("extern \"C\"\n{\n"); ws_inp_out_Map::iterator iter; for(iter=ws_info.begin();iter!=ws_info.end();iter++) { string ws_n = iter->first; meth_Map meth = iter->second; meth_Map::iterator iter1; for(iter1=meth.begin();iter1!=meth.end();iter1++) { string me_n = iter1->first; strMap pars = iter1->second; string ws_nn = ws_n; StringUtil::replaceAll(ws_nn, "::", "_"); ws_funcs.append("string "+appname+me_n+ws_nn+"(Element* _req)\n{\nElement ele;\n"); ws_funcs.append("string _retStr;\n"); ws_funcs.append("try{\n/*_req->validateNs();*/\n"); strMap::iterator iter2; string args; unsigned int ter = 1; //logger << me_n << ws_n << pars.size() << endl; for(iter2=pars.begin();iter2!=pars.end();iter2++) { if(iter2->first!="RETURN" && iter2->first!="RETURNTYP") { string argname = iter2->first; if(iter2->second=="int" || iter2->second=="short" || iter2->second=="double" || iter2->second=="float" || iter2->second=="string" || iter2->second=="bool" || iter2->second=="long" || iter2->second=="long long" || iter2->second=="unsigned int" || iter2->second=="unsigned short" || iter2->second=="unsigned long" || iter2->second=="unsigned long long" || iter2->second=="string") { ws_funcs.append("ele = _req->getElementByName(\""+argname+"\");\n"); ws_funcs.append(iter2->second+" "+argname+";\n"); ws_funcs.append("if(ele.getTagName()!=\"\")"); ws_funcs.append(argname+" = CastUtil::lexical_cast<"+iter2->second+">(ele.getText());\n"); } else if(iter2->second.find("vector<")!=string::npos) { string vecn = iter2->second; StringUtil::replaceFirst(vecn,"std::"," "); StringUtil::replaceFirst(vecn,"vector<"," "); StringUtil::replaceFirst(vecn,">"," "); StringUtil::trim(vecn); if(vecn=="int" || vecn=="short" || vecn=="float" || vecn=="double" || vecn=="bool" || vecn=="long long" || vecn=="long" || vecn=="string" || vecn=="unsigned int" || vecn=="unsigned short" || vecn=="unsigned long long" || vecn=="unsigned long") { ws_funcs.append("vector<"+vecn+" > "+argname+";\n"); ws_funcs.append("ElementList list = _req->getElementsByName(\""+argname+"\");\n"); ws_funcs.append("for(int i=0;i<list.size();i++)"); ws_funcs.append(argname+".push_back(CastUtil::lexical_cast<"+vecn+">(list.at(i).getText()));\n"); } else { ws_funcs.append("vector<"+vecn+" > "+argname+";\n"); ws_funcs.append("ElementList list = _req->getElementsByName(\""+argname+"\");\n"); ws_funcs.append("for(int i=0;i<list.size();i++)\n{\n"); ws_funcs.append(argname+".push_back(XMLSerialize::unserialize<vector<"+vecn+" > >(list.at(i).renderSerialization()));\n}\n"); } } else { ws_funcs.append("ele = _req->getElementByName(\""+argname+"\");\n"); ws_funcs.append(iter2->second+" "+argname+";\n"); ws_funcs.append("if(ele.getTagName()!=\"\")"); ws_funcs.append("{\nele.setTagName(\""+iter2->second+"\");"); //ref.getTreatedFullyQualifiedClassName(argname, ) ws_funcs.append("\n"+argname+" = XMLSerialize::unserialize<"+iter2->second+">(ele.renderSerialization());\n"); ws_funcs.append("\ncout << ele.renderSerialization() << endl;"); ws_funcs.append("}\n"); } args.append(argname); if(ter++<pars.size()-2) args.append(","); } } ws_funcs.append(ws_n+" _obj;\n"); //ws_funcs.append("AttributeList attl = _req->getAttributes();\n"); //ws_funcs.append("AttributeList::iterator it;\n"); ws_funcs.append("_retStr = \"<tns:\" + _req->getTagName() + \"Response\";\n"); //ws_funcs.append("for(it=attl.begin();it!=attl.end();it++)\n"); //ws_funcs.append("_retStr.append(\" \" + it->first + \"=\\\"\" + it->second + \"\\\" \");\n"); ws_funcs.append("_retStr.append(\">\");\n"); if(pars["RETURNTYP"]=="void") { ws_funcs.append("_obj."+me_n+"("+args+");\n"); } else if(pars["RETURNTYP"]=="int" || pars["RETURNTYP"]=="short" || pars["RETURNTYP"]=="float" || pars["RETURNTYP"]=="double" || pars["RETURNTYP"]=="bool" || pars["RETURNTYP"]=="long long" || pars["RETURNTYP"]=="long" || pars["RETURNTYP"]=="unsigned int" || pars["RETURNTYP"]=="unsigned short" || pars["RETURNTYP"]=="string" || pars["RETURNTYP"]=="unsigned long long" || pars["RETURNTYP"]=="unsigned long") { ws_funcs.append(pars["RETURNTYP"]+" _retval;\n"); ws_funcs.append("_retval = _obj."+me_n+"("+args+");\n"); ws_funcs.append("_retStr += \"<tns:"+pars["RETURN"]+">\"+CastUtil::lexical_cast<string>(_retval)+\"</tns:"+pars["RETURN"]+">\";\n"); } else if(pars["RETURNTYP"]!="") { ws_funcs.append(pars["RETURNTYP"]+" _retval;\n"); ws_funcs.append("_retval = _obj."+me_n+"("+args+");\n"); if(pars["RETURNTYP"].find("vector<")!=string::npos) { string vecn = pars["RETURNTYP"]; StringUtil::replaceFirst(vecn,"std::"," "); StringUtil::replaceFirst(vecn,"vector<"," "); StringUtil::replaceFirst(vecn,">"," "); StringUtil::trim(vecn); if(vecn=="string" || vecn=="int" || vecn=="short" || vecn=="float" || vecn=="double" || vecn=="bool" || vecn=="long long" || vecn=="long" || vecn=="unsigned int" || vecn=="unsigned short" || vecn=="unsigned long long" || vecn=="unsigned long") { ws_funcs.append("for(int i=0;i<_retval.size();i++)"); ws_funcs.append("_retStr += \"<tns:"+pars["RETURN"]+">\"+CastUtil::lexical_cast<string>(_retval.at(i))+\"</tns:"+pars["RETURN"]+">\";\n"); } else { ws_funcs.append("string allnmspcs;\n"); ws_funcs.append("for(int i=0;i<_retval.size();i++)\n{\n"); ws_funcs.append("XmlParser parser(\"Parser\");\n"); ws_funcs.append("allnmspcs = \"\";\n"); ws_funcs.append("Document doc = parser.getDocument(XMLSerialize::serialize<"+vecn+">(_retval.at(i)));\n"); ws_funcs.append("\ncout << XMLSerialize::serialize<"+vecn+">(_retval.at(i)) << endl;"); ws_funcs.append("normalizeNamespaces(doc.getRootElement(),\""+appname+"\",allnmspcs);\n"); ws_funcs.append("_retStr += \"<tns:"+pars["RETURN"]+">\"+doc.getRootElement().renderChildren()+\"</tns:"+pars["RETURN"]+">\";\n}\n"); } } else { ws_funcs.append("string allnmspcs;\n"); ws_funcs.append("XmlParser parser(\"Parser\");\n"); ws_funcs.append("Document doc = parser.getDocument(XMLSerialize::serialize<"+pars["RETURNTYP"]+">(_retval));\n"); ws_funcs.append("normalizeNamespaces(doc.getRootElement(),\""+appname+"\",allnmspcs);\n"); ws_funcs.append("_retStr += \"<tns:"+pars["RETURN"]+">\"+doc.getRootElement().renderChildren()+\"</tns:"+pars["RETURN"]+">\";\n"); } } ws_funcs.append("_retStr += \"</tns:\" + _req->getTagName() + \"Response>\";\n"); ws_funcs.append("}catch(const Exception& e){\n"); ws_funcs.append("return e.getMessage();\n} "); ws_funcs.append("catch(const char* e){\n"); ws_funcs.append("return string(e);\n} "); ws_funcs.append("catch(...){\n"); ws_funcs.append("return \"<soap:Fault><faultcode>soap:Server</faultcode><faultstring>Exception occurred</faultstring></soap:Fault>\";\n}\n"); ws_funcs.append("return _retStr;\n}\n"); } //ws_funcs.append("}\n"); } //AfcUtil::writeTofile(rtdcfp+"WsInterface.cpp",ws_funcs,true); } return ws_funcs; }
virtual void ProcessEvent( Event &event ) { if( UI_Main::Get()->debugOn() ) { Com_Printf( "EventListener: Event %s, target %s, phase %i\n", event.GetType().CString(), event.GetTargetElement()->GetTagName().CString(), event.GetPhase() ); } if( event.GetType() == "keydown" && ( event.GetPhase() == Rocket::Core::Event::PHASE_TARGET || event.GetPhase() == Rocket::Core::Event::PHASE_BUBBLE ) ) { int key = event.GetParameter<int>( "key_identifier", 0 ); ElementDocument *document = event.GetTargetElement()->GetOwnerDocument(); WSWUI::Document *ui_document = static_cast<WSWUI::Document *>(document->GetScriptObject()); WSWUI::NavigationStack *stack = ui_document ? ui_document->getStack() : NULL; if( key == Input::KI_ESCAPE ) { if( stack ) { if( stack->isTopModal() ) { // pop the top document stack->popDocument(); } else if( stack->getContextId() == UI_CONTEXT_MAIN ) { // hide all documents UI_Main::Get()->showUI( false ); } } event.StopPropagation(); } else if( key == Rocket::Core::Input::KI_BROWSER_BACK || key == Rocket::Core::Input::KI_BACK ) { // act as history.back() if( stack && stack->hasAtLeastTwoDocuments() ) { stack->popDocument(); event.StopPropagation(); } } } else if( event.GetType() == "change" && ( event.GetPhase() == Rocket::Core::Event::PHASE_BUBBLE ) ) { bool linebreak = event.GetParameter<int>( "linebreak", 0 ) != 0; if( linebreak ) { // form submission String inputType; Element *target = event.GetTargetElement(); Rocket::Controls::ElementFormControl *input = dynamic_cast<Rocket::Controls::ElementFormControl *>(target); if( event.GetPhase() != Rocket::Core::Event::PHASE_BUBBLE ) { return; } if( input == NULL ) { // not a form control return; } if( input->IsDisabled() ) { // skip disabled inputs return; } if( !input->IsSubmitted() ) { // this input field isn't submitted with the form return; } inputType = input->GetAttribute<String>( "type", "" ); if( inputType != "text" && inputType != "password" ) { // not a text field return; } // find the parent form element Element *parent = target->GetParentNode(); Rocket::Controls::ElementForm *form = NULL; while( parent ) { form = dynamic_cast<Rocket::Controls::ElementForm *>(parent); if( form != NULL ) { // not a form, go up the tree break; } parent = parent->GetParentNode(); } if( form == NULL ) { if( UI_Main::Get()->debugOn() ) { Com_Printf( "EventListener: input element outside the form, what should I do?\n" ); } return; } // find the submit element Element *submit = NULL; ElementList controls; parent->GetElementsByTagName( controls, "input" ); for( size_t i = 0; i < controls.size(); i++ ) { Rocket::Controls::ElementFormControl *control = dynamic_cast< Rocket::Controls::ElementFormControl* >(controls[i]); if( !control ) { continue; } if( control->IsDisabled() ) { // skip disabled inputs continue; } String controlType = control->GetAttribute<String>( "type", "" ); if( controlType != "submit" ) { // not a text field continue; } submit = controls[i]; break; } if( submit == NULL ) { if( UI_Main::Get()->debugOn() ) { Com_Printf( "EventListener: form with no submit element, what should I do?\n" ); } return; } // finally submit the form form->Submit( submit->GetAttribute< Rocket::Core::String >("name", ""), submit->GetAttribute< Rocket::Core::String >("value", "") ); } } }
FFEADContext::FFEADContext(const std::string& depFile, const std::string& appName) { reflector = NULL; cleared = false; logger = LoggerFactory::getLogger("FFEADContext"); XmlParser parser("Parser"); Document doc; parser.readDocument(depFile, doc); const Element& root = doc.getRootElement(); ElementList eles = root.getChildElements(); if(eles.size()>0 && root.getTagName()=="beans") { for (unsigned int var = 0; var < eles.size(); var++) { Element* ele = &(eles.at(var)); if(ele->getTagName()=="bean") { Bean bean; bean.appName = appName; bean.name = ele->getAttribute("name"); bean.value = ele->getAttribute("value"); bean.inbuilt = ele->getAttribute("inbuilt"); if(ele->getAttribute("bean")!="") throw std::runtime_error("Invalid attribute"); bean.bean = ele->getAttribute("bean"); bean.clas = ele->getAttribute("class"); bean.intfType = ele->getAttribute("intfType"); bean.injectAs = ele->getAttribute("injectAs"); bean.scope = ele->getAttribute("scope"); bean.realbean = true; ElementList eleeles = ele->getChildElements(); if(eleeles.size()==0) { } else { for (unsigned int var1 = 0; var1 < eleeles.size(); var1++) { Element* ele1 = &(eleeles.at(var1)); if(ele1->getTagName()=="inject") { if(ele1->getAttribute("bean")!="") { bean.injs.push_back(appName+ele1->getAttribute("bean")); if(ele1->getAttribute("name")!="") bean.names.push_back(appName+ele1->getAttribute("name")); else bean.names.push_back(appName+ele1->getAttribute("bean")); bean.types.push_back(ele1->getAttribute("intfType")); } else { Bean beanc; beanc.appName = appName; beanc.name = ele1->getAttribute("name"); beanc.value = ele1->getAttribute("value"); beanc.inbuilt = ele1->getAttribute("inbuilt"); beanc.clas = ele1->getAttribute("class"); beanc.intfType = ele1->getAttribute("intfType"); bean.scope = ele1->getAttribute("scope"); beanc.realbean = false; injbns[beanc.appName+beanc.name] = beanc; bean.injs.push_back(beanc.appName+beanc.name); bean.names.push_back(beanc.appName+beanc.name); } } else { throw std::runtime_error("Invalid tag"); } } } beans[bean.appName+bean.name] = bean; } else { throw std::runtime_error("Invalid tag"); } } } }
void* MethodInvoc::service(void* arg) { int fd = *(int*)arg; init(); string methInfo,retValue; _methinv_instance->server.Receive(fd,methInfo,1024); methInfo =methInfo.substr(0,methInfo.find_last_of(">")+1); try { XmlParser parser("Parser"); if(methInfo.find("lang=\"c++\"")!=string::npos || methInfo.find("lang='c++'")!=string::npos) { Document doc = parser.getDocument(methInfo); Element message = doc.getRootElement(); if(message.getTagName()!="method") { throw MethodInvokerException("No method Tag\n",retValue); } if(message.getAttributes().size()<3) { throw MethodInvokerException("name,class and lang are mandatory attributes\n",retValue); } else if(message.getAttribute("name")=="") { throw MethodInvokerException("name attribute missing\n",retValue); } else if(message.getAttribute("className")=="") { throw MethodInvokerException("class attribute missing\n",retValue); } else if(message.getAttribute("lang")=="") { throw MethodInvokerException("lang attribute missing\n",retValue); } if(message.getChildElements().size()!=1) { throw MethodInvokerException("message tag should have only one child tag\n",retValue); } else if(message.getChildElements().at(0).getTagName()!="args") { throw MethodInvokerException("message tag should have an args child tag\n",retValue); } XMLSerialize ser; Reflector reflector; args argus; vals valus; ElementList argts = message.getChildElements().at(0).getChildElements(); for (unsigned var = 0; var < argts.size(); var++) { void *value = NULL; Element arg = argts.at(var); if(arg.getTagName()!="argument" || arg.getAttribute("type")=="") throw MethodInvokerException("every argument tag should have a name and type attribute\n",retValue); if(arg.getText()=="" && arg.getChildElements().size()==0) throw MethodInvokerException("argument value missing\n",retValue); if(arg.getAttribute("type")=="int") { int *vt = new int; *vt = CastUtil::lexical_cast<int>(arg.getText()); value = vt; } else if(arg.getAttribute("type")=="float") { float *vt = new float; *vt = CastUtil::lexical_cast<float>(arg.getText()); value = vt; } else if(arg.getAttribute("type")=="double") { double *vt = new double; *vt = CastUtil::lexical_cast<double>(arg.getText()); value = vt; } else if(arg.getAttribute("type")=="string") { string *vt = new string; *vt = CastUtil::lexical_cast<string>(arg.getText()); value = vt; } else if(arg.getAttribute("type")!="") { Element obj = arg.getChildElements().at(0); string objxml = obj.render(); string objClassName = obj.getTagName(); value = ser.unSerializeUnknown(objxml,arg.getAttribute("type")); } argus.push_back(arg.getAttribute("type")); valus.push_back(value); } string className = message.getAttribute("className"); string returnType = message.getAttribute("returnType"); string lang = message.getAttribute("lang"); ClassInfo clas = reflector.getClassInfo(className); string methodName = message.getAttribute("name");; if(clas.getClassName()=="") { throw MethodInvokerException("class does not exist or is not in the library path\n",retValue); } Method meth = clas.getMethod(methodName,argus); if(meth.getMethodName()=="") { throw MethodInvokerException("method does not exist for the class or the class does not exist in the library path\n",retValue); } else { args argus; Constructor ctor = clas.getConstructor(argus); void *_temp = reflector.newInstanceGVP(ctor); if(returnType=="void" || returnType=="") { reflector.invokeMethod<void*>(_temp,meth,valus); retValue = ("<return:void></return:void>"); } else { if(returnType=="int") { int retv = reflector.invokeMethod<int>(_temp,meth,valus); retValue = ("<return:int>"+CastUtil::lexical_cast<string>(retv)+"</return:int>"); } else if(returnType=="float") { float retv = reflector.invokeMethod<float>(_temp,meth,valus); retValue = ("<return:float>"+CastUtil::lexical_cast<string>(retv)+"</return:float>"); } else if(returnType=="double") { double retv = reflector.invokeMethod<double>(_temp,meth,valus); retValue = ("<return:double>"+CastUtil::lexical_cast<string>(retv)+"</return:double>"); } else if(returnType=="string") { string retv = reflector.invokeMethod<string>(_temp,meth,valus); retValue = ("<return:string>"+retv+"</return:string>"); } else if(returnType!="") { void* retobj = reflector.invokeMethodUnknownReturn(_temp,meth,valus); string oxml = ser.serializeUnknown(retobj,returnType); retValue = ("<return:"+returnType+">"+oxml+"</return:"+returnType+">"); } } } } else { retValue = "<return:exception>This is a C++ daemon</return:exception>"; } if(retValue!="") _methinv_instance->server.Send(fd,retValue); close(fd); } catch(MethodInvokerException *e) { _methinv_instance->server.Send(fd,retValue); close(fd); } catch(...) { retValue = ("<return:exception>XmlParseException occurred</return:exception>"); _methinv_instance->server.Send(fd,retValue); close(fd); } return NULL; }