int NppFTP::LoadSettings() {
int result = 0;
char xmlPath[MAX_PATH];
char * utf8Store = SU::TCharToCP(m_configStore, CP_ACP);
strcpy(xmlPath, utf8Store);
::PathCombineA(xmlPath, utf8Store, "NppFTP.xml");
TiXmlDocument settingsDoc = TiXmlDocument(xmlPath);
settingsDoc.LoadFile();
strcpy(xmlPath, utf8Store);
::PathCombineA(xmlPath, utf8Store, "Certificates.xml");
SU::FreeChar(utf8Store);
TiXmlDocument certificatesDoc = TiXmlDocument(xmlPath);
certificatesDoc.LoadFile();
TiXmlElement* ftpElem = settingsDoc.FirstChildElement("NppFTP");
if (!ftpElem) {
result = 1;
return result;
}
m_ftpSettings->LoadSettings(ftpElem);
TiXmlElement * profilesElem = ftpElem->FirstChildElement(FTPProfile::ProfilesElement);
if (!profilesElem) {
m_profiles.clear();
result = 1;
} else {
m_profiles = FTPProfile::LoadProfiles(profilesElem);
for(size_t i = 0; i < m_profiles.size(); i++) {
m_profiles.at(i)->AddRef();
m_profiles.at(i)->SetCacheParent(m_ftpSettings->GetGlobalCache());
}
}
ftpElem = certificatesDoc.FirstChildElement("NppFTP");
if (!ftpElem) {
m_certificates.clear();
result = 1;
} else {
TiXmlElement * dersElem = ftpElem->FirstChildElement(SSLCertificates::DERsElem);
if (!dersElem) {
m_certificates.clear();
result = 1;
} else {
vDER derVect = SSLCertificates::LoadDER(dersElem);
m_certificates = SSLCertificates::ConvertDERVector(derVect);
SSLCertificates::FreeDERVector(derVect);
}
}
return result;
}
NNXML::NNXML( std::string path )
: m_LoadSuccess(false)
{
m_Document = TiXmlDocument( path.c_str() );
//m_Document.LoadFile(TIXML_ENCODING_UTF8);
m_LoadSuccess = m_Document.LoadFile();
}
Progress::Progress(void)
{
Logger::DiagnosticOut() << "Loading progress record\n";
//Load XML
TiXmlDocument doc = TiXmlDocument("Progress.xml");
doc.LoadFile();
TiXmlElement* root = doc.FirstChildElement("Progress");
if(root)
{
TiXmlElement* record = root->FirstChildElement("Record");
int record_number = 0;
while(record)
{
std::string filename = "";
bool completed = false;
bool error = false;
error |= (record->QueryValueAttribute("Filename", &filename) != TIXML_SUCCESS);
error |= (record->QueryValueAttribute("Completed", &completed) != TIXML_SUCCESS);
if(error)
Logger::DiagnosticOut() << "Error parsing record number: " << record_number << ". Possible data: Filename:" << filename << ", completed: " << completed << "\n";
else
{
ProgressRecord pr;
pr.completed = completed;
progress_[filename] = pr;
}
record = record->NextSiblingElement("Record");
record_number++;
}
}
}
//-----------------------------------------------------------------------------
bool xml_c::read( std::string filename ) {
// TODO: robust error checking
TiXmlDocument doc;
doc = TiXmlDocument( filename );
bool result;
result = doc.LoadFile();
if( !result ) {
return false;
}
TiXmlHandle tixml_hdoc( &doc );
TiXmlHandle tixml_root( 0 );
TiXmlElement* tixml_e;
TiXmlHandle tixml_h( 0 );
tixml_e = tixml_hdoc.FirstChildElement().Element();
tixml_root = TiXmlHandle( tixml_e );
_root = xml_element_ptr( new xml_element_c() );
process_tixml_element( (void*)tixml_e, _root );
return true;
}
void SettingsXML::Start(){
//Load the XML
_File = TiXmlDocument();
TiXmlDeclaration* decl = new TiXmlDeclaration( "1.0", "", "" );
_File.LinkEndChild( decl );
TiXmlElement * root = new TiXmlElement( "Settings" );
_File.LinkEndChild( root );
}
WindowUser::WindowUser(QWidget *parent) :
QMainWindow(parent),
ui(new Ui::WindowUser)
{
ui->setupUi(this);
doc= TiXmlDocument("Mis Vuelos.xml") ;
mc= TiXmlDocument("Mis Conexiones.xml") ;
//connect(this->draw,SIGNAL(MousePos()),this,SLOT(Mouse_Current_Pos()));
this->setAirport();
this->ReadXML();
}
void ObjectLoader::setFile(string fileName)
{
// Set XML file and create the Tiny XML document object
mFile = fileName;
mXmlFile = TiXmlDocument(fileName.c_str());
// Important to load the file!
mXmlFile.LoadFile();
}
void XML_Document::create_root(const String &field) {
delete m_root;
m_root = 0;
m_xml_file = TiXmlDocument();
m_xml_file.LinkEndChild(new TiXmlDeclaration("1.0", "", ""));
m_xml_file.LinkEndChild(new TiXmlElement(field.c_str()));
TiXmlHandle root = &m_xml_file;
m_root = new XML_Element(root);
}
cliente::cliente(QWidget *parent) :
QDialog(parent),
ui(new Ui::cliente)
{
ui->setupUi(this);
this->a = new miWidget(this);
a->setGeometry(20,130,900,431);
a->show();
doc=TiXmlDocument("Aeropuertos.xml");
doc2=TiXmlDocument("Conexiones.xml");
leerXml();
leerXml2();
cout<<this->miGrafo.p->ciudad.toStdString();
miGrafo.mostrar_grafo();
// miGrafo.llenarMatriz();
}
BOOL CSDXMLFile::LoadData(const CHAR* pszData, const UINT32 dwDataLen)
{
if(NULL == pszData)
{
return FALSE;
}
UnLoad();
m_pDocument = SDNew TiXmlDocument();
if(m_pDocument->LoadData(pszData, dwDataLen))
{
return TRUE;
}
UnLoad();
return FALSE;
}
BOOL CSDXMLFile::Load(const CHAR* pszXmlFile)
{
if(NULL == pszXmlFile)
{
return FALSE;
}
UnLoad();
m_pDocument = SDNew TiXmlDocument();
if(pszXmlFile!=NULL)
{
if(m_pDocument->LoadFile(pszXmlFile))
{
return TRUE;
}
}
UnLoad();
return FALSE;
}
Progress::~Progress(void)
{
Logger::DiagnosticOut() << "Saving progress record\n";
//Save XML
TiXmlDocument doc = TiXmlDocument("Progress.xml");
TiXmlDeclaration* decl = new TiXmlDeclaration();
TiXmlElement* root = new TiXmlElement("Progress");
doc.LinkEndChild(decl);
doc.LinkEndChild(root);
std::pair<std::string, ProgressRecord> item;
BOOST_FOREACH(item, progress_)
{
TiXmlElement* record = new TiXmlElement("Record");
record->SetAttribute("Filename", item.first);
record->SetAttribute("Completed", item.second.completed);
root->LinkEndChild(record);
}
void FindingElementDepthTest::setUp() {
m_tag_father = Tag("portals");
m_tag_son = Tag("localDatabase");
m_tag_son_of_son = Tag("name");
m_invalid_tag_father = Tag("modalities");
m_invalid_tag_son = Tag("modality");
m_invalid_tag_son_of_son = Tag("password");
m_tag_son_value = "localDatabase";
m_tag_son_of_son_value = "name";
m_tag_son_of_son_text = "Dicomizer Local Database";
m_tag_son_with_attributes = Tag("portal");
m_tag_son_with_attributes.properties["id"] = "hu";
m_invalid_tag_son_with_attributes = Tag("portal");
m_invalid_tag_son_with_attributes.properties["id"] = "wrongid";
m_tag_son_of_son_with_attributes = Tag("databaseName");
m_tag_son_of_son_with_attributes_value = "databaseName";
m_tag_son_of_son_with_attributes_text = "telemedicina2";
m_first_tag_son_of_son_with_attributes_value
= m_tag_son_of_son_with_attributes_value;
m_first_tag_son_of_son_with_attributes_text
= m_tag_son_of_son_with_attributes_text;
m_tag_son_without_attributes = Tag("portal");
m_searcher = XmlSearcher();
m_doc = TiXmlDocument();
m_doc.LoadFile("test.xml");
}
HRESULT CRMxmlLoader::LoadMusicData(const std::string& folderName )
{
std::string filePath;
filePath.append("./Music/");
filePath.append( folderName );
filePath.append("/index.xml");
TiXmlDocument document = TiXmlDocument( filePath.c_str() );
// document.LoadFile(TIXML_ENCODING_UTF8);
bool m_LoadSuccess = document.LoadFile();
std::string title;
std::string artist;
std::string level;
std::string imageAlbum;
std::string imageBackground;
std::string imageShutter;
std::string imageNote1;
std::string imageNote2;
std::string imageNoteEffect;
std::string soundBackground;
std::string soundNoteEffect1;
std::string soundNoteEffect2;
std::string note;
if ( m_LoadSuccess )
{
title = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Title/text()").c_str();
artist = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Artist/text()").c_str();
level = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Level/text()").c_str();
imageAlbum = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Image/imageAlbum/text()").c_str();
imageBackground = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Image/imageBackground/text()").c_str();
imageShutter = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Image/imageShutter/text()").c_str();
imageNote1 = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Image/imageNote1/text()").c_str();
imageNote2 = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Image/imageNote2/text()").c_str();
imageNoteEffect = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Image/imageNoteEffect/text()").c_str();
soundBackground = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Sound/soundBackground/text()").c_str();
soundNoteEffect1 = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Sound/soundNoteEffect1/text()").c_str();
soundNoteEffect2 = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Sound/soundNoteEffect2/text()").c_str();
note = TinyXPath::S_xpath_string(document.RootElement(), "/Music/Note/text()").c_str();
printConsole("Loaded Music :%s \n", title.c_str());
}
if ( title == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_TITLE, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( artist == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_ARTIST, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( level == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_LEVEL, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( imageAlbum == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_IMAGE_ALBUM, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( imageBackground == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_IMAGE_BACKGROUND, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( imageShutter == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_IMAGE_SHUTTER, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( imageNote1 == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_IMAGE_NOTE1, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( imageNote2 == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_IMAGE_NOTE2, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( imageNoteEffect == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_IMAGE_NOTE_EFFECT, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( soundBackground == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_SOUND_BACKGROUND, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( soundNoteEffect1 == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_SOUND_NOTE_EFFECT1, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( soundNoteEffect2 == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_SOUND_NOTE_EFFECT2, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
else if ( note == "" )
{
MessageBox( NULL, ERROR_MESSAGE_LOAD_XML_NOTE_DATA, ERROR_TITLE_LOAD, MB_OK | MB_ICONSTOP );
return S_FALSE;
}
auto& toBeDelete = m_MusicDataMap[folderName];
SafeDelete( toBeDelete );
m_MusicDataMap[folderName] = new CRMmusicData();
m_MusicDataMap[folderName]->SetTitle( title );
m_MusicDataMap[folderName]->SetArtist( artist );
m_MusicDataMap[folderName]->SetLevel( level );
m_MusicDataMap[folderName]->SetImageAlbum( imageAlbum );
m_MusicDataMap[folderName]->SetImageBackground( imageBackground );
m_MusicDataMap[folderName]->SetImageShutter( imageShutter );
m_MusicDataMap[folderName]->SetImageNote1( imageNote1 );
m_MusicDataMap[folderName]->SetImageNote2( imageNote2 );
m_MusicDataMap[folderName]->SetImageNoteEffect( imageNoteEffect );
m_MusicDataMap[folderName]->SetSoundBackground( soundBackground );
m_MusicDataMap[folderName]->SetSoundNoteEffect1( soundNoteEffect1 );
m_MusicDataMap[folderName]->SetSoundNoteEffect2( soundNoteEffect2 );
m_MusicDataMap[folderName]->SetNote( note );
return S_OK;
}
NNXML::NNXML()
{
m_Document = TiXmlDocument();
}
bool AutoCompletion::setLanguage(LangType language) {
if (_curLang == language)
return true;
_curLang = language;
TCHAR path[MAX_PATH];
//::GetModuleFileName(NULL, path, MAX_PATH);
//PathRemoveFileSpec(path);
CString strOwmPath = theApp.GetModulePath();
lstrcpy(path, strOwmPath);
lstrcat(path, TEXT("\\APIs\\"));
lstrcat(path, getApiFileName());
lstrcat(path, TEXT(".xml"));
_XmlFile = TiXmlDocument(path);
_funcCompletionActive = _XmlFile.LoadFile();
TiXmlNode * pAutoNode = NULL;
if (_funcCompletionActive) {
_funcCompletionActive = false; //safety
TiXmlNode * pNode = _XmlFile.FirstChild(TEXT("OwmScite"));
if (!pNode)
return false;
pAutoNode = pNode = pNode->FirstChildElement(TEXT("AutoComplete"));
if (!pNode)
return false;
pNode = pNode->FirstChildElement(TEXT("KeyWord"));
if (!pNode)
return false;
_pXmlKeyword = reinterpret_cast<TiXmlElement *>(pNode);
if (!_pXmlKeyword)
return false;
_funcCompletionActive = true;
}
if(_funcCompletionActive) { //try setting up environment
//setup defaults
_ignoreCase = true;
_funcCalltip._start = '(';
_funcCalltip._stop = ')';
_funcCalltip._param = ',';
_funcCalltip._terminal = ';';
_funcCalltip._ignoreCase = true;
TiXmlElement * pElem = pAutoNode->FirstChildElement(TEXT("Environment"));
if (pElem) {
const TCHAR * val = 0;
val = pElem->Attribute(TEXT("ignoreCase"));
if (val && !lstrcmp(val, TEXT("no"))) {
_ignoreCase = false;
_funcCalltip._ignoreCase = false;
}
val = pElem->Attribute(TEXT("startFunc"));
if (val && val[0])
_funcCalltip._start = val[0];
val = pElem->Attribute(TEXT("stopFunc"));
if (val && val[0])
_funcCalltip._stop = val[0];
val = pElem->Attribute(TEXT("paramSeparator"));
if (val && val[0])
_funcCalltip._param = val[0];
val = pElem->Attribute(TEXT("terminal"));
if (val && val[0])
_funcCalltip._terminal = val[0];
}
}
if (_funcCompletionActive) {
_funcCalltip.setLanguageXML(_pXmlKeyword);
} else {
_funcCalltip.setLanguageXML(NULL);
}
_keyWords = TEXT("");
if (_funcCompletionActive) { //Cache the keywords
//Iterate through all keywords
TiXmlElement *funcNode = _pXmlKeyword;
const TCHAR * name = NULL;
for (; funcNode; funcNode = funcNode->NextSiblingElement(TEXT("KeyWord")) ) {
name = funcNode->Attribute(TEXT("name"));
if (!name) //malformed node
continue;
_keyWords.append(name);
_keyWords.append(TEXT("\n"));
}
}
return _funcCompletionActive;
}
/**
* Constructor of the run class for toaster_vizualiser
*/
Run() {
name_list = std::vector<std::string>();
id_cpt = 1;
ros::NodeHandle reception_node;
ros::NodeHandle emission_node;
area_list = visualization_msgs::MarkerArray();
obj_list = visualization_msgs::MarkerArray();
human_list = visualization_msgs::MarkerArray();
robot_list = visualization_msgs::MarkerArray();
//definition of subscribers
sub_objList = reception_node.subscribe("/pdg/objectList", 1000, &Run::chatterCallbackObjList, this);
sub_areaList = reception_node.subscribe("/area_manager/areaList", 1000, &Run::chatterCallbackAreaList, this);
sub_humanList = reception_node.subscribe("/pdg/humanList", 1000, &Run::chatterCallbackHumanList, this);
sub_robotList = reception_node.subscribe("/pdg/robotList", 1000, &Run::chatterCallbackRobotList, this);
//definition of publishers
pub_obj = emission_node.advertise<visualization_msgs::MarkerArray>("/toaster_visualizer/marker_object", 1000);
pub_area = emission_node.advertise<visualization_msgs::MarkerArray>("/toaster_visualizer/marker_area", 1000);
pub_human = emission_node.advertise<visualization_msgs::MarkerArray>("/toaster_visualizer/marker_human", 1000);
pub_robot = emission_node.advertise<visualization_msgs::MarkerArray>("/toaster_visualizer/marker_robot", 1000);
//open xml files
// Objects
std::stringstream pathObj;
pathObj << ros::package::getPath("toaster_visualizer") << "/src/list_obj.xml";
listObj = TiXmlDocument(pathObj.str());
if (!listObj.LoadFile()) {
ROS_WARN_ONCE("Erreur lors du chargement du fichier xml");
ROS_WARN_ONCE("error # %d", listObj.ErrorId());
ROS_WARN_ONCE("%s", listObj.ErrorDesc());
}
// Humans
std::stringstream pathHuman;
pathHuman << ros::package::getPath("toaster_visualizer") << "/src/list_human_morse_joints.xml";
listMemb = TiXmlDocument(pathHuman.str());
if (!listMemb.LoadFile()) {
ROS_WARN_ONCE("Erreur lors du chargement du fichier xml");
ROS_WARN_ONCE("error # %d", listMemb.ErrorId());
ROS_WARN_ONCE("%s", listMemb.ErrorDesc());
}
// Robots
/*path.flush();
path << ros::package::getPath("toaster_visualizer") << "/src/list_robots.xml";
listRob = TiXmlDocument(path.str());
if (!listRob.LoadFile()) {
ROS_WARN_ONCE("Erreur lors du chargement du fichier xml");
ROS_WARN_ONCE("error # %d", listRob.ErrorId());
ROS_WARN_ONCE("%s", listRob.ErrorDesc());
}*/
}
void Automata::loadFromXML(string archivo,string archivo_default)
{
TiXmlDocument doc_t(archivo.c_str());
bool loadOkay = doc_t.LoadFile();
if(!loadOkay)
{
doc_t=TiXmlDocument(archivo_default.c_str());
loadOkay=doc_t.LoadFile();
cout.flush();
}
TiXmlDocument *doc;
doc=&doc_t;
for(TiXmlNode* nodo=doc->FirstChild("State");
nodo!=NULL;
nodo=nodo->NextSibling("State"))
{
std::vector<Transicion*> transiciones;
for(TiXmlElement *e_action=nodo->FirstChild("Action")->ToElement();
e_action!=NULL;
e_action=e_action->NextSiblingElement("Action"))
{
Transicion *transicion;
if(e_action->Attribute("rewardable")!=NULL)
transicion=new Transicion(e_action->Attribute("input"),e_action->Attribute("destination"),strcmp(e_action->Attribute("rewardable"),"yes")==0);
else
transicion=new Transicion(e_action->Attribute("input"),e_action->Attribute("destination"),false);
if(e_action->Attribute("reward")!=NULL)
transicion->setRecompensa(atoi(e_action->Attribute("reward")));
if(e_action->Attribute("wait")!=NULL)
transicion->setWait(atoi(e_action->Attribute("wait")));
if(e_action->FirstChild("condition")!=NULL)
{
for(TiXmlElement *elemento_condicion=e_action->FirstChild("condition")->ToElement();
elemento_condicion!=NULL;
elemento_condicion=elemento_condicion->NextSiblingElement("condition"))
{
std::string exp_i(elemento_condicion->Attribute("left_exp"));
std::string op(elemento_condicion->Attribute("relational_op"));
std::string exp_d(elemento_condicion->Attribute("right_exp"));
std::string str_contrario(elemento_condicion->Attribute("to_opponent"));
bool contrario=(str_contrario=="yes");
transicion->agregarCondicion(Condicion2(exp_i,op,exp_d,contrario));
}
}
if(e_action->FirstChild("condition_integer")!=NULL)
{
for(TiXmlElement *elemento_condicion=e_action->FirstChild("condition_integer")->ToElement();
elemento_condicion!=NULL;
elemento_condicion=elemento_condicion->NextSiblingElement("condition_integer"))
{
std::string exp_i(elemento_condicion->Attribute("left_exp"));
std::string op(elemento_condicion->Attribute("relational_op"));
int exp_d=atoi(elemento_condicion->Attribute("right_exp"));
std::string str_contrario(elemento_condicion->Attribute("to_opponent"));
bool contrario=(str_contrario=="yes");
transicion->agregarCondicion(Condicion2(exp_i,op,exp_d,contrario));
}
}
transiciones.push_back(transicion);
}
estados[std::string(nodo->ToElement()->Attribute("name"))]=new Estado(transiciones);
}
}
SystemParser::SystemParser(const char* filename, unsigned int verbosity, LeafType leaf_type)
{
// Open the document
TiXmlDocument document = TiXmlDocument(filename);
if (!document.LoadFile()) {
throw ParseError("[ERROR] Could not load the input file.");
}
// Get the root node of the XML-document
TiXmlNode* rootNode = document.RootElement();
if (rootNode == NULL) {
throw ParseError("[ERROR] Could not access the root node of the XML-tree");
}
// Find out the type of the transition system (lts, ctmc, imc)
const std::string type_str = readStringAttribute(rootNode, "type");
if (type_str == "lts") system_type = lts_type;
else if (type_str == "ctmc") system_type = ctmc_type;
else if (type_str == "imc") system_type = imc_type;
else system_type = lts_type;
this->leaf_type = leaf_type;
// Traverse the children of the root node and collect the pointers to the parts we need.
TiXmlNode* varinfoNode = NULL;
TiXmlNode* initialstateNode = NULL;
TiXmlNode* transNode = NULL;
TiXmlNode* markovtransNode = NULL;
TiXmlNode* initialpartitionNode = NULL;
TiXmlNode* tauNode = NULL;
for (TiXmlNode* currentNode = rootNode->FirstChild();
currentNode != NULL;
currentNode = currentNode->NextSibling()) {
if (currentNode->ToElement() == NULL) continue;
const char* const name = currentNode->ToElement()->Value();
if (strcmp(name, "variables") == 0) {
varinfoNode = currentNode;
} else if (strcmp(name, "dd") == 0) {
std::string bdd_type = readStringAttribute(currentNode, "type");
if (bdd_type == "initial_state") {
initialstateNode = currentNode;
} else if (bdd_type == "trans") {
transNode = currentNode;
} else if (bdd_type == "markov_trans") {
markovtransNode = currentNode;
} else if (bdd_type == "tau") {
tauNode = currentNode;
}
} else if (strcmp(name, "initial_partition") == 0) {
initialpartitionNode = currentNode;
}
}
// Check if we have found the variable information
if (varinfoNode == NULL) {
throw ParseError("[ERROR] No variable information found!");
}
// Check if the correct information exists for the system type
switch (system_type) {
case lts_type:
if (markovtransNode != NULL) {
throw ParseError("[ERROR] LTS must not have any Markov transitions!");
}
if (transNode == NULL) {
throw ParseError("[ERROR] LTS must have an interactive transition relation!");
}
break;
case ctmc_type:
if (transNode != NULL) {
throw ParseError("[ERROR] CTMCs must not have any interactive transitions!");
}
if (markovtransNode == NULL) {
throw ParseError("[ERROR] CTMCs must have a Markov transition relation!");
}
break;
case imc_type:
if (transNode == NULL) {
throw ParseError("[ERROR] IMCs must have an interactive transition relation!");
}
if (markovtransNode == NULL) {
throw ParseError("[ERROR] IMCs must have a Markov transition relation!");
}
break;
}
// Parse the variable information and create the BDD variables
// together with an appropriate order for refinement
if (verbosity > 0) std::cout << "[INFO] Creating BDD variables ... " << std::flush;
createVariables(varinfoNode);
if (verbosity > 0) std::cout << "finished." << std::endl;
// Build the BDDs/ADDs for all parts
if (verbosity > 0) std::cout << "[INFO] Building BDDs ... " << std::flush;
std::vector<std::pair<Bdd, Bdd>> transitions;
Bdd _transitions = Bdd::bddZero();
if (transNode != NULL) {
_transitions = nodeToBdd(transNode);
transitions.push_back(std::make_pair(_transitions, varS * varT));
}
Mtbdd markov_transitions;
if (markovtransNode != NULL) markov_transitions = nodeToMtbdd(markovtransNode);
Bdd tau;
if (tauNode != NULL) tau = nodeToBdd(tauNode);
else {
// Default value of tau: 0
int action_bits = sylvan_set_count(varA.GetBDD());
std::vector<uint8_t> tau_value;
for (int i=0; i<action_bits; i++) tau_value.push_back(0);
tau = Bdd::bddCube(varA, tau_value);
}
Bdd initial_state;
if (initialstateNode != NULL) initial_state = nodeToBdd(initialstateNode);
Bdd states = computeStateSpace(_transitions, markov_transitions);
std::vector<Bdd> initial_partition;
if (initialpartitionNode != NULL) {
for (TiXmlNode* currentNode = initialpartitionNode->FirstChild();
currentNode != NULL; currentNode = currentNode->NextSibling()) {
initial_partition.push_back(nodeToBdd(currentNode));
}
}
if (initial_partition.size() == 0) initial_partition.push_back(states);
if (verbosity > 0) std::cout << "finished." << std::endl;
// Fill the right system with information
switch (system_type) {
case lts_type:
lts.transitions = transitions;
lts.states = states;
lts.tau = tau;
lts.initialStates = initial_state;
lts.initialPartition = initial_partition;
lts.varS = varS;
lts.varT = varT;
lts.varA = varA;
break;
case imc_type:
imc.transitions = transitions;
imc.markov_transitions = markov_transitions;
imc.states = states;
imc.tau = tau;
imc.initialStates = initial_state;
imc.initialPartition = initial_partition;
imc.varS = varS;
imc.varT = varT;
imc.varA = varA;
break;
case ctmc_type:
ctmc.markov_transitions = markov_transitions;
ctmc.states = states;
ctmc.initialStates = initial_state;
ctmc.initialPartition = initial_partition;
ctmc.varS = varS;
ctmc.varT = varT;
break;
default:
break;
}
}
HRESULT CRMxmlLoader::LoadNoteData( const std::string& folderName )
{
std::string filePath;
filePath.append("./Music/");
filePath.append( folderName );
filePath.append("/");
filePath.append( m_MusicDataMap[folderName]->GetNote() );
TiXmlDocument document = TiXmlDocument( filePath.c_str() );
bool m_LoadSuccess = document.LoadFile();
if ( m_LoadSuccess )
{
if ( m_NoteList.size() > 0 )
{
for ( auto& toBeDelete : m_NoteList )
{
SafeDelete( toBeDelete );
}
}
m_NoteList.clear();
TiXmlNode* node = document.FirstChild("Notes")->FirstChild("Note");
while ( node != NULL )
{
int time = 0;
int level = 0;
node->ToElement()->Attribute("time", &time);
node->ToElement()->Attribute("level", &level);
std::string type = node->ToElement()->GetText();
CRMnoteData* noteData = new CRMnoteData (time, level, (type == "left") ? OBJECT_NOTE_NORMAL_1 : OBJECT_NOTE_NORMAL_2 );
m_NoteList.push_back( noteData );
node = node->NextSibling();
}
/*
TiXmlNode* node = document.FirstChild("Notes");
int bpm = 0;
if ( node != NULL )
{
node->ToElement()->Attribute("bpm", &bpm);
}
node = document.FirstChild("End");
int endTime = 0;
if ( node != NULL )
{
node->ToElement()->Attribute("time", &endTime);
}
node = document.FirstChild("Notes")->FirstChild("Note");
int level = 0;
int beat1Time = 0;
int nextTime = 0;
int endJoint = 0;
int jointCount = 0;
std::string type;
CRMnoteData* noteData = nullptr;
while ( node != NULL && nextTime < endTime)
{
node->ToElement()->Attribute("start", &beat1Time);
node->ToElement()->Attribute("end", &endJoint);
type = node->ToElement()->GetText();
nextTime = beat1Time + ( 1000 * 60 / bpm );
jointCount = 0;
if ( type == "on" )
{
while ( beat1Time < endJoint )
{
printConsole ( "%d밀리초에 노트 하나 추가요~! \n", (beat1Time + (jointCount * 60 / bpm) - 2152) );
noteData = new CRMnoteData( (beat1Time + (jointCount * 60 / bpm) - 2152) , (jointCount % 2) + 1 , (jointCount++ % 2 == 0) ? OBJECT_NOTE_NORMAL_1 : OBJECT_NOTE_NORMAL_2 );
// 2152 = 화면 최상단에서 판정판까지 내려오기까지 걸리는 시간 ms
m_NoteList.push_back( noteData );
beat1Time += 1000 * 60 / bpm;
}
}
node = node->NextSibling();
}
*/
}
if ( m_NoteList.size() == 0 )
{
return S_FALSE;
}
return S_OK;
}
NNXML::NNXML( char *buf )
{
m_Document = TiXmlDocument();
//m_Document.LoadFile(TIXML_ENCODING_UTF8);
m_Document.Parse( buf );
}
void IPXMLParser::parseXML() {
if ( fileName.empty() )
throw std::runtime_error( "Exception: fileName.empty()" );
doc = TiXmlDocument( fileName );
if ( !doc.LoadFile() )
throw std::runtime_error( "Exception: XML file cannot be loaded!" );
std::cout << fileName << " opened successfully!\n";
TiXmlHandle hDoc( &doc );
TiXmlHandle hRoot( NULL );
el = hDoc.FirstChildElement( "Properties" ).ToElement();
if ( !el )
throw std::runtime_error(
"Exception: XML file empty or 'Properties' missing!" );
hRoot = TiXmlHandle( el );
TiXmlElement * properties = hRoot.FirstChild( "Property" ).ToElement();
if ( !properties )
throw std::runtime_error( "Exception: 'Properties' is empty!" );
for ( ; properties;
properties = properties->NextSiblingElement( "Property" ) ) {
const char * elName = properties->Attribute( "name" );
if ( !properties )
throw std::runtime_error( "Exception: no element named Property!" );
if ( strcmp( elName, "hsvMin" ) != 0
&& std::strcmp( elName, "hsvMax" ) != 0 )
throw std::runtime_error(
"Exception: hsvMin and hsvMax not available!" );
if ( strcmp( elName, "hsvMin" ) == 0 ) {
double hMin, sMin, vMin;
properties->QueryDoubleAttribute( "hMin", &hMin );
properties->QueryDoubleAttribute( "sMin", &sMin );
properties->QueryDoubleAttribute( "vMin", &vMin );
hsvMin = cv::Scalar( hMin, sMin, vMin );
std::cout << "hsvMin: " << hsvMin( 0 ) << " " << hsvMin( 1 ) << " "
<< hsvMin( 2 ) << " " << hsvMin( 3 ) << std::endl;
}
if ( strcmp( elName, "hsvMax" ) == 0 ) {
double hMax, sMax, vMax;
properties->QueryDoubleAttribute( "hMax", &hMax );
properties->QueryDoubleAttribute( "sMax", &sMax );
properties->QueryDoubleAttribute( "vMax", &vMax );
hsvMax = cv::Scalar( hMax, sMax, vMax );
std::cout << "hsvMax: " << hsvMax( 0 ) << " " << hsvMax( 1 ) << " "
<< hsvMax( 2 ) << " " << hsvMax( 3 ) << std::endl;
}
}
}
