void TiXmlElement::Print( FILE* cfile, int depth ) const
{
int i;
assert( cfile );
for ( i=0; i<depth; i++ ) {
fprintf( cfile, " " );
}
fprintf( cfile, "<%s", value.c_str() );
const TiXmlAttribute* attrib;
for ( attrib = attributeSet.First(); attrib; attrib = attrib->Next() )
{
fprintf( cfile, " " );
attrib->Print( cfile, depth );
}
// There are 3 different formatting approaches:
// 1) An element without children is printed as a <foo /> node
// 2) An element with only a text child is printed as <foo> text </foo>
// 3) An element with children is printed on multiple lines.
TiXmlNode* node;
if ( !firstChild )
{
fprintf( cfile, " />" );
}
else if ( firstChild == lastChild && firstChild->ToText() )
{
fprintf( cfile, ">" );
firstChild->Print( cfile, depth + 1 );
fprintf( cfile, "</%s>", value.c_str() );
}
else
{
fprintf( cfile, ">" );
for ( node = firstChild; node; node=node->NextSibling() )
{
if ( !node->ToText() )
{
fprintf( cfile, "\n" );
}
node->Print( cfile, depth+1 );
}
fprintf( cfile, "\n" );
for( i=0; i<depth; ++i ) {
fprintf( cfile, " " );
}
fprintf( cfile, "</%s>", value.c_str() );
}
}
wxString GetTextElement(TiXmlElement* node, const char* name)
{
wxASSERT(node);
TiXmlElement* element = node->FirstChildElement(name);
if (!element)
return wxString();
TiXmlNode* textNode = element->FirstChild();
if (!textNode || !textNode->ToText())
return wxString();
return ConvLocal(textNode->Value());
}
wxString GetTextElement(TiXmlElement* node)
{
wxASSERT(node);
for (TiXmlNode* pChild = node->FirstChild(); pChild; pChild = pChild->NextSibling())
{
if (!pChild->ToText())
continue;
return ConvLocal(pChild->Value());
}
return _T("");
}
void CKSXML_Read_Project::Set_Temp_Online_Project_Name(TiXmlNode* pParent)
{
if ( !pParent ) return;
TiXmlNode* pChild = pParent->FirstChild();
if ( pChild ){
TiXmlText* pText;
pText = pChild->ToText();
msTemp_Online_Project_Name = pText->Value();
}
}
void XMLreader::mainProcessorIni( std::vector<TiXmlNode*> pParentVect )
{
std::map<int, TiXmlNode*> parents;
for (unsigned iParent=0; iParent<pParentVect.size(); ++iParent) {
EPC_ASSERT( pParentVect[iParent]->Type()==TiXmlNode::DOCUMENT ||
pParentVect[iParent]->Type()==TiXmlNode::ELEMENT );
TiXmlElement* pParentElement = pParentVect[iParent]->ToElement();
int id=0;
if (pParentElement) {
const char* attribute = pParentElement->Attribute("id");
if (attribute) {
std::stringstream attributestr(attribute);
attributestr >> id;
}
}
parents[id] = pParentVect[iParent];
}
std::map<int, TiXmlNode*>::iterator it = parents.begin();
name = it->second->ValueStr();
for (; it != parents.end(); ++it) {
int id = it->first;
TiXmlNode* pParent = it->second;
Data& data = data_map[id];
data.text="";
typedef std::map<std::string, std::vector<TiXmlNode*> > ChildMap;
ChildMap childMap;
TiXmlNode* pChild;
for ( pChild = pParent->FirstChild(); pChild != 0; pChild = pChild->NextSibling())
{
int type = pChild->Type();
if ( type==TiXmlNode::ELEMENT ) {
std::string name(pChild->Value());
childMap[name].push_back(pChild);
}
else if ( type==TiXmlNode::TEXT ) {
data.text = pChild->ToText()->ValueStr();
}
}
for (ChildMap::iterator it = childMap.begin(); it != childMap.end(); ++it) {
std::vector<TiXmlNode*> pChildVect = it->second;
data.children.push_back( new XMLreader( pChildVect ) );
}
}
}
void LevelParser::parseTileLayer( TiXmlElement* pTileElement, std::vector<Layer*> *pLayers, const std::vector<Tileset> *pTilesets )
{
TileLayer* pTileLayer = new TileLayer( m_tileSize, *pTilesets );
// tile data
std::vector< std::vector<int> > data;
std::string decodedIDs;
TiXmlElement* pDataNode;
for( TiXmlElement* e = pTileElement->FirstChildElement(); e !=NULL; e = e->NextSiblingElement() )
{
if( e->Value() == std::string("data") )
{
pDataNode = e;
}
}
for( TiXmlNode* e = pDataNode->FirstChild(); e != NULL; e = e->NextSibling() )
{
TiXmlText* text = e->ToText();
std::string t = text->Value();
decodedIDs = base64_decode(t);
}
// uncompress zlib compression
uLongf numGids = m_width * m_height * sizeof( int );
std::vector< unsigned > gids( m_width * m_height );
uncompress( (Bytef*) &gids[0], &numGids, (const Bytef* ) decodedIDs.c_str(), decodedIDs.size() );
std::vector< int > layerRow( m_width );
for( int j = 0; j < m_height; j++ )
{
data.push_back( layerRow );
}
for( int rows = 0; rows < m_height; rows++ )
{
for( int cols = 0; cols < m_width; cols++ )
{
data[rows][cols] = gids[rows * m_width + cols];
}
}
pTileLayer->setTileIDs( data );
pLayers->push_back( pTileLayer );
}
bool COptions::GetXmlValue(unsigned int nID, wxString &value, TiXmlElement *settings /*=0*/)
{
if (!settings)
{
if (!m_pXmlFile)
return false;
settings = m_pXmlFile->GetElement()->FirstChildElement("Settings");
if (!settings)
{
TiXmlNode *node = m_pXmlFile->GetElement()->InsertEndChild(TiXmlElement("Settings"));
if (!node)
return false;
settings = node->ToElement();
if (!settings)
return false;
}
}
TiXmlNode *node = 0;
while ((node = settings->IterateChildren("Setting", node)))
{
TiXmlElement *setting = node->ToElement();
if (!setting)
continue;
const char *attribute = setting->Attribute("name");
if (!attribute)
continue;
if (strcmp(attribute, options[nID].name))
continue;
TiXmlNode *text = setting->FirstChild();
if (!text)
{
value.clear();
return true;
}
if (!text->ToText())
return false;
value = ConvLocal(text->Value());
return true;
}
return false;
}
void CKSXML_Read_Project::Read_Branch_Object(TiXmlElement* pElement)
{
if ( !pElement ) return ;
// branch uuid
TiXmlAttribute* pAttrib = pElement->FirstAttribute();
if(pAttrib)
gpApplication->Set_Branch_UUID( pAttrib->Value() );
TiXmlNode* pChild;
TiXmlText* pText;
for ( pChild = pElement->FirstChild(); pChild != 0; pChild = pChild->NextSibling()) {
if(pChild->Type() == TiXmlNode::ELEMENT){
if (stricmp("name", pChild->Value()) == 0) {
TiXmlNode* pName = pChild->FirstChild();
if(pName) {
pText = pName->ToText();
if(pText)
gpApplication->Set_Branch_Name(pText->Value());
}
}
else if (stricmp("description", pChild->Value()) == 0) {
TiXmlNode* pSet_Branch_Description = pChild->FirstChild();
if(pSet_Branch_Description) {
pText = pSet_Branch_Description->ToText();
if(pText)
gpApplication->Set_Branch_Description(pText->Value());
}
}
else if (stricmp("revision", pChild->Value()) == 0){
TiXmlNode* pSet_Branch_Revision = pChild->FirstChild();
if(pSet_Branch_Revision) {
std::string sBranch_Revision = pSet_Branch_Revision->Value();
gpApplication->Branch_Revision(atoi(sBranch_Revision.c_str()));
}
}
}
}
}
void TiXmlElement::toStream( std::ostream& stream, int depth ) const
{
int i;
for ( i=0; i<depth; i++ )
stream << " ";
stream << "<" << value;
const TiXmlAttribute* attrib;
for ( attrib = attributeSet.First(); attrib; attrib = attrib->Next() )
{
stream << " ";
attrib->toStream( stream, depth );
}
// There are 3 different formatting approaches:
// 1) An element without children is printed as a <foo /> node
// 2) An element with only a text child is printed as <foo> text </foo>
// 3) An element with children is printed on multiple lines.
TiXmlNode* node;
if ( !firstChild )
{
stream << " />";
}
else if ( firstChild == lastChild && firstChild->ToText() )
{
stream << ">";
firstChild->toStream( stream, depth + 1 );
stream << "</" << value << ">";
}
else
{
stream << ">";
for ( node = firstChild; node; node=node->NextSibling() )
{
if ( !node->ToText() )
{
stream << "\n";
}
node->toStream( stream, depth+1 );
}
stream << "\n";
for( i=0; i<depth; ++i )
stream << " ";
stream << "</" << value << ">";
}
}
void XMLNode::addNode(TiXmlNode* n){
if (!n) throw CasadiException("Error in XMLNode::addNode: Node is 0");
// Save name
setName(n->Value());
// Save attributes
int type = n->Type();
if(type == TiXmlNode::ELEMENT){
if(n->ToElement()!=0){
for(TiXmlAttribute* pAttrib=n->ToElement()->FirstAttribute(); pAttrib; pAttrib=pAttrib->Next()){
setAttribute(pAttrib->Name(),pAttrib->Value());
}
}
} else if(type == TiXmlNode::DOCUMENT) {
// do nothing
} else {
throw CasadiException("XMLNode::addNode");
}
// Count the number of children
int num_children = 0;
for( TiXmlNode* child = n->FirstChild(); child != 0; child= child->NextSibling()){
num_children++;
}
children_.reserve(num_children);
// add children
int ch = 0;
for ( TiXmlNode* child = n->FirstChild(); child != 0; child= child->NextSibling(), ++ch){
int childtype = child->Type();
if(childtype == TiXmlNode::ELEMENT){
XMLNode newnode;
newnode.addNode(child);
children_.push_back(newnode);
child_indices_[newnode.getName()] = ch;
} else if(childtype == TiXmlNode::COMMENT){
comment_ = child->Value();
} else if(childtype == TiXmlNode::TEXT){
text_ = child->ToText()->Value();
} else if (childtype == TiXmlNode::DECLARATION){
cout << "Warning: Skipped TiXmlNode::DECLARATION" << endl;
} else {
throw CasadiException("Error in XMLNode::addNode: Unknown node type");
}
}
}
void TiXmlElement::Print( FILE* cfile, int depth ) const
{
int i;
assert( cfile );
for ( i=0; i<depth; i++ ) {
fprintf( cfile, " " );
}
fprintf( cfile, "<%s", value.c_str() );
const TiXmlAttribute* attrib;
for ( attrib = attributeSet.First(); attrib; attrib = attrib->Next() )
{
fprintf( cfile, " " );
attrib->Print( cfile, depth );
}
TiXmlNode* node;
if ( !firstChild )
{
fprintf( cfile, " />" );
}
else if ( firstChild == lastChild && firstChild->ToText() )
{
fprintf( cfile, ">" );
firstChild->Print( cfile, depth + 1 );
fprintf( cfile, "</%s>", value.c_str() );
}
else
{
fprintf( cfile, ">" );
for ( node = firstChild; node; node=node->NextSibling() )
{
if ( !node->ToText() )
{
fprintf( cfile, "\n" );
}
node->Print( cfile, depth+1 );
}
fprintf( cfile, "\n" );
for( i=0; i<depth; ++i ) {
fprintf( cfile, " " );
}
fprintf( cfile, "</%s>", value.c_str() );
}
}
void AddTextElementRaw(TiXmlElement* node, const char* value)
{
wxASSERT(node);
wxASSERT(value && *value);
for (TiXmlNode* pChild = node->FirstChild(); pChild; pChild = pChild->NextSibling())
{
if (!pChild->ToText())
continue;
node->RemoveChild(pChild);
break;
}
node->LinkEndChild(new TiXmlText(value));
}
void COptions::LoadOptionFromElement(TiXmlElement* pOption, std::map<std::string, unsigned int> const& nameOptionMap, bool allowDefault)
{
const char* name = pOption->Attribute("name");
if (!name)
return;
auto const iter = nameOptionMap.find(name);
if (iter != nameOptionMap.end()) {
if (!allowDefault && options[iter->second].flags == default_only)
return;
wxString value;
TiXmlNode *text = pOption->FirstChild();
if (text) {
if (!text->ToText())
return;
value = ConvLocal(text->Value());
}
if (options[iter->second].flags == default_priority) {
if (allowDefault) {
scoped_lock l(m_sync_);
m_optionsCache[iter->second].from_default = true;
}
else {
scoped_lock l(m_sync_);
if (m_optionsCache[iter->second].from_default)
return;
}
}
if (options[iter->second].type == number) {
long numValue = 0;
value.ToLong(&numValue);
numValue = Validate(iter->second, numValue);
scoped_lock l(m_sync_);
m_optionsCache[iter->second] = numValue;
}
else {
value = Validate(iter->second, value);
scoped_lock l(m_sync_);
m_optionsCache[iter->second] = value;
}
}
}
dustring duXmlStatic::GetElementText(TiXmlElement *pElement)
{
dustring strText = _T("");
TiXmlNode *pChildNode = pElement->FirstChild();
while (pChildNode)
{
if (pChildNode->Type() == TiXmlNode::TEXT)
{
TiXmlText *pXmlText = pChildNode->ToText();
strText += pXmlText->Value();
}
pChildNode = pChildNode->NextSibling();
}
return strText;
}
void BulletMLParserTinyXML::getTree(TiXmlNode* node) {
if (node->ToComment() != 0) return;
translateNode(node);
TiXmlNode* child;
for (child = node->FirstChild(); child; child = child->NextSibling()) {
TiXmlText* text;
if ((text = child->ToText()) != 0) {
curNode_->setValue(text->Value());
break;
}
getTree(child);
}
curNode_ = curNode_->getParent();
}
void SE_UnitHeightHandler::handle(SE_Element* parent, TiXmlElement* xmlElement, unsigned int indent)
{
SE_TextureCoordAnimation* anim = (SE_TextureCoordAnimation*)parent->getAnimation();
if(anim == NULL)
return;
TiXmlNode* pChild;
TiXmlNode* currNode = xmlElement;
for(pChild = currNode->FirstChild() ; pChild != NULL ; pChild = pChild->NextSibling())
{
int t = pChild->Type();
if(t != TiXmlNode::TINYXML_TEXT)
return;
TiXmlText* pText = pChild->ToText();
const char* value = pText->Value();
int h = atoi(value);
anim->setUnitHeight(h);
}
}
void CKSXML_Read_Project::Read_Sample_Object(TiXmlElement* pElement)
{
if ( !pElement ) return ;
TiXmlAttribute* pAttrib = pElement->FirstAttribute();
CSample_Data Sample_Data;
// set sample uuid
if(pAttrib) {
std::string sUUID = pAttrib->Value();
Sample_Data.Set_UUID(sUUID);
}
TiXmlNode* pChild;
TiXmlText* pText;
for ( pChild = pElement->FirstChild(); pChild != 0; pChild = pChild->NextSibling()) {
if(pChild->Type() == TiXmlNode::ELEMENT){
if (stricmp("name", pChild->Value()) == 0) {
TiXmlNode* pName = pChild->FirstChild();
if(pName) {
pText = pName->ToText();
if(pText)
Sample_Data.Name(pText->Value());
}
}
else if (stricmp("take", pChild->Value()) == 0) {
CTake_Data* pTake_Data = Sample_Data.Get_Take_Data();
// set take name
pTake_Data->Screen_Name( Sample_Data.Name() );
Read_Take_Object(pChild->ToElement(), pTake_Data);
}
}
}
// store sample data in list
mSample_Data_List.push_back(Sample_Data);
}
///////////////////////////////////////////////////////////////////////////////
// TiXMLManager::SetText
///////////////////////////////////////////////////////////////////////////////
// Description:
// ...
// Parameters:
// const char* pcszText:
// const TiXmlNode* pNode /* = NULL */:
// Return:
// int:
///////////////////////////////////////////////////////////////////////////////
int TiXMLManager::SetText(
const char* pcszText,
TiXmlNode* pNode /* = NULL */)
{
int nResult = false;
int nRetCode = false;
KAV_PROCESS_ERROR(pcszText);
{
TiXmlText text(pcszText);
TiXmlNode* pChildNode = NULL;
if (!pNode)
{
KAV_PROCESS_ERROR(m_pCurNode);
pNode = m_pCurNode;
}
for (pChildNode = pNode->FirstChild(); pChildNode; pChildNode = pChildNode->NextSibling())
{
if (pChildNode->ToText())
break;
}
if (pChildNode)
{
pNode->ReplaceChild(pChildNode, text);
}
else
pNode->InsertEndChild(text);
}
nResult = true;
Exit0: // fail exit
return nResult;
}
void JXmlNode::SetText(JString text, bool IsCData)
{
string text_multi = ToUtf8String(text);
if( m_pXmlElement ){
if( !IsLeafNode ){
m_pXmlElement->SetValue(text_multi);
}else{
TiXmlNode* child = NULL;
while( child = m_pXmlElement->IterateChildren(child) ){
if( IsTextNode(child) ){
child->ToText()->SetValue(text_multi);
return;
}
}
TiXmlText txt(text_multi);
txt.SetCDATA(IsCData);
m_pXmlElement->InsertEndChild(txt);
}
}
}
void AddTextElement(TiXmlElement* node, const wxString& value)
{
wxASSERT(node);
char* utf8 = ConvUTF8(value);
if (!utf8)
return;
for (TiXmlNode* pChild = node->FirstChild(); pChild; pChild = pChild->NextSibling())
{
if (!pChild->ToText())
continue;
node->RemoveChild(pChild);
break;
}
node->InsertEndChild(TiXmlText(utf8));
delete [] utf8;
}
TiXmlText*
PluginXmlParser::requireText (
const TiXmlElement& elem,
OsStatus* err)
{
TiXmlNode* tn = (TiXmlNode*)elem.FirstChild();
if (tn != NULL && tn->Type() == TiXmlNode::TEXT)
{
TiXmlText* t = tn->ToText();
if (t->Value() != NULL)
{
return t;
}
}
OsSysLog::add(FAC_SIP, PRI_ERR, "PluginXmlParser::requiredText "
"missing element text body %s ", elem.Value());
*err = OS_FAILED;
return NULL;
}
const char* SimXMLDocument::getData()
{
if(m_paNode.empty())
return "";
const int iFinalElement = m_paNode.size() - 1;
TiXmlNode* pNode = m_paNode[iFinalElement];
if(!pNode)
return "";
TiXmlNode * firstChild = pNode->FirstChild();
if(!firstChild)
return "";
TiXmlText* text = firstChild->ToText();
if( !text )
return "";
return text->Value();
}
void TiXmlElement::Print( FILE* fp, int depth )
{
int i;
for ( i=0; i<depth; i++ )
fprintf( fp, " " );
fprintf( fp, "<%s", value.c_str() );
TiXmlAttribute* attrib;
for ( attrib = attributeSet.First(); attrib; attrib = attrib->Next() )
{
fprintf( fp, " " );
attrib->Print( fp, 0 );
}
// If this node has children, give it a closing tag. Else
// make it an empty tag.
TiXmlNode* node;
if ( firstChild )
{
fprintf( fp, ">" );
for ( node = firstChild; node; node=node->NextSibling() )
{
if ( !node->ToText() )
fprintf( fp, "\n" );
node->Print( fp, depth+1 );
}
fprintf( fp, "\n" );
for ( i=0; i<depth; i++ )
fprintf( fp, " " );
fprintf( fp, "</%s>", value.c_str() );
}
else
{
fprintf( fp, " />" );
}
}
//--------------------------------------------------------------------------------------------------
///
//--------------------------------------------------------------------------------------------------
bool XmlElementImpl::setValueText(const String& text)
{
TiXmlText* pText = NULL;
TiXmlNode* pNode = NULL;
for (pNode = FirstChild(); pNode; pNode = pNode->NextSibling())
{
pText = pNode->ToText();
if (pText) break;
}
cvf::CharArray charArr = text.toUtf8();
if (pText)
{
pText->SetValue(charArr.ptr());
}
else
{
pText = new TiXmlText(charArr.ptr());
LinkEndChild(pText);
}
return true;
}
int main()
{
//
// We start with the 'demoStart' todo list. Process it. And
// should hopefully end up with the todo list as illustrated.
//
const char* demoStart =
"<?xml version=\"1.0\" standalone='no' >\n"
"<!-- Our to do list data -->"
"<ToDo>\n"
"<!-- Do I need a secure PDA? -->\n"
"<Item priority=\"1\" distance='close'> Go to the <bold>Toy store!</bold></Item>"
"<Item priority=\"2\" distance='none'> Do bills </Item>"
"<Item priority=\"2\" distance='far & back'> Look for Evil Dinosaurs! </Item>"
"</ToDo>";
{
#ifdef TIXML_USE_STL
// What the todo list should look like after processing.
// In stream (no formatting) representation.
const char* demoEnd =
"<?xml version=\"1.0\" standalone=\"no\" ?>"
"<!-- Our to do list data -->"
"<ToDo>"
"<!-- Do I need a secure PDA? -->"
"<Item priority=\"2\" distance=\"close\">Go to the"
"<bold>Toy store!"
"</bold>"
"</Item>"
"<Item priority=\"1\" distance=\"far\">Talk to:"
"<Meeting where=\"School\">"
"<Attendee name=\"Marple\" position=\"teacher\" />"
"<Attendee name=\"Voel\" position=\"counselor\" />"
"</Meeting>"
"<Meeting where=\"Lunch\" />"
"</Item>"
"<Item priority=\"2\" distance=\"here\">Do bills"
"</Item>"
"</ToDo>";
#endif
// The example parses from the character string (above):
#if defined( WIN32 ) && defined( TUNE )
_CrtMemCheckpoint( &startMemState );
#endif
{
// Write to a file and read it back, to check file I/O.
TiXmlDocument doc( "demotest.xml" );
doc.Parse( demoStart );
if ( doc.Error() )
{
printf( "Error in %s: %s\n", doc.Value(), doc.ErrorDesc() );
exit( 1 );
}
doc.SaveFile();
}
TiXmlDocument doc( "demotest.xml" );
bool loadOkay = doc.LoadFile();
if ( !loadOkay )
{
printf( "Could not load test file 'demotest.xml'. Error='%s'. Exiting.\n", doc.ErrorDesc() );
exit( 1 );
}
printf( "** Demo doc read from disk: ** \n\n" );
printf( "** Printing via doc.Print **\n" );
doc.Print( stdout );
{
printf( "** Printing via TiXmlPrinter **\n" );
TiXmlPrinter printer;
doc.Accept( &printer );
fprintf( stdout, "%s", printer.CStr() );
}
#ifdef TIXML_USE_STL
{
printf( "** Printing via operator<< **\n" );
std::cout << doc;
}
#endif
TiXmlNode* node = 0;
TiXmlElement* todoElement = 0;
TiXmlElement* itemElement = 0;
// --------------------------------------------------------
// An example of changing existing attributes, and removing
// an element from the document.
// --------------------------------------------------------
// Get the "ToDo" element.
// It is a child of the document, and can be selected by name.
node = doc.FirstChild( "ToDo" );
assert( node );
todoElement = node->ToElement();
assert( todoElement );
// Going to the toy store is now our second priority...
// So set the "priority" attribute of the first item in the list.
node = todoElement->FirstChildElement(); // This skips the "PDA" comment.
assert( node );
itemElement = node->ToElement();
assert( itemElement );
itemElement->SetAttribute( "priority", 2 );
// Change the distance to "doing bills" from
// "none" to "here". It's the next sibling element.
itemElement = itemElement->NextSiblingElement();
assert( itemElement );
itemElement->SetAttribute( "distance", "here" );
// Remove the "Look for Evil Dinosaurs!" item.
// It is 1 more sibling away. We ask the parent to remove
// a particular child.
itemElement = itemElement->NextSiblingElement();
todoElement->RemoveChild( itemElement );
itemElement = 0;
// --------------------------------------------------------
// What follows is an example of created elements and text
// nodes and adding them to the document.
// --------------------------------------------------------
// Add some meetings.
TiXmlElement item( "Item" );
item.SetAttribute( "priority", "1" );
item.SetAttribute( "distance", "far" );
TiXmlText text( "Talk to:" );
TiXmlElement meeting1( "Meeting" );
meeting1.SetAttribute( "where", "School" );
TiXmlElement meeting2( "Meeting" );
meeting2.SetAttribute( "where", "Lunch" );
TiXmlElement attendee1( "Attendee" );
attendee1.SetAttribute( "name", "Marple" );
attendee1.SetAttribute( "position", "teacher" );
TiXmlElement attendee2( "Attendee" );
attendee2.SetAttribute( "name", "Voel" );
attendee2.SetAttribute( "position", "counselor" );
// Assemble the nodes we've created:
meeting1.InsertEndChild( attendee1 );
meeting1.InsertEndChild( attendee2 );
item.InsertEndChild( text );
item.InsertEndChild( meeting1 );
item.InsertEndChild( meeting2 );
// And add the node to the existing list after the first child.
node = todoElement->FirstChild( "Item" );
assert( node );
itemElement = node->ToElement();
assert( itemElement );
todoElement->InsertAfterChild( itemElement, item );
printf( "\n** Demo doc processed: ** \n\n" );
doc.Print( stdout );
#ifdef TIXML_USE_STL
printf( "** Demo doc processed to stream: ** \n\n" );
cout << doc << endl << endl;
#endif
// --------------------------------------------------------
// Different tests...do we have what we expect?
// --------------------------------------------------------
int count = 0;
TiXmlElement* element;
//////////////////////////////////////////////////////
#ifdef TIXML_USE_STL
cout << "** Basic structure. **\n";
ostringstream outputStream( ostringstream::out );
outputStream << doc;
XmlTest( "Output stream correct.", string( demoEnd ).c_str(),
outputStream.str().c_str(), true );
#endif
node = doc.RootElement();
assert( node );
XmlTest( "Root element exists.", true, ( node != 0 && node->ToElement() ) );
XmlTest ( "Root element value is 'ToDo'.", "ToDo", node->Value());
node = node->FirstChild();
XmlTest( "First child exists & is a comment.", true, ( node != 0 && node->ToComment() ) );
node = node->NextSibling();
XmlTest( "Sibling element exists & is an element.", true, ( node != 0 && node->ToElement() ) );
XmlTest ( "Value is 'Item'.", "Item", node->Value() );
node = node->FirstChild();
XmlTest ( "First child exists.", true, ( node != 0 && node->ToText() ) );
XmlTest ( "Value is 'Go to the'.", "Go to the", node->Value() );
//////////////////////////////////////////////////////
printf ("\n** Iterators. **\n");
// Walk all the top level nodes of the document.
count = 0;
for( node = doc.FirstChild();
node;
node = node->NextSibling() )
{
count++;
}
XmlTest( "Top level nodes, using First / Next.", 3, count );
count = 0;
for( node = doc.LastChild();
node;
node = node->PreviousSibling() )
{
count++;
}
XmlTest( "Top level nodes, using Last / Previous.", 3, count );
// Walk all the top level nodes of the document,
// using a different syntax.
count = 0;
for( node = doc.IterateChildren( 0 );
node;
node = doc.IterateChildren( node ) )
{
count++;
}
XmlTest( "Top level nodes, using IterateChildren.", 3, count );
// Walk all the elements in a node.
count = 0;
for( element = todoElement->FirstChildElement();
element;
element = element->NextSiblingElement() )
{
count++;
}
XmlTest( "Children of the 'ToDo' element, using First / Next.",
3, count );
// Walk all the elements in a node by value.
count = 0;
for( node = todoElement->FirstChild( "Item" );
node;
node = node->NextSibling( "Item" ) )
{
count++;
}
XmlTest( "'Item' children of the 'ToDo' element, using First/Next.", 3, count );
count = 0;
for( node = todoElement->LastChild( "Item" );
node;
node = node->PreviousSibling( "Item" ) )
{
count++;
}
XmlTest( "'Item' children of the 'ToDo' element, using Last/Previous.", 3, count );
#ifdef TIXML_USE_STL
{
cout << "\n** Parsing. **\n";
istringstream parse0( "<Element0 attribute0='foo0' attribute1= noquotes attribute2 = '>' />" );
TiXmlElement element0( "default" );
parse0 >> element0;
XmlTest ( "Element parsed, value is 'Element0'.", "Element0", element0.Value() );
XmlTest ( "Reads attribute 'attribute0=\"foo0\"'.", "foo0", element0.Attribute( "attribute0" ));
XmlTest ( "Reads incorrectly formatted 'attribute1=noquotes'.", "noquotes", element0.Attribute( "attribute1" ) );
XmlTest ( "Read attribute with entity value '>'.", ">", element0.Attribute( "attribute2" ) );
}
#endif
{
const char* error = "<?xml version=\"1.0\" standalone=\"no\" ?>\n"
"<passages count=\"006\" formatversion=\"20020620\">\n"
" <wrong error>\n"
"</passages>";
TiXmlDocument docTest;
docTest.Parse( error );
XmlTest( "Error row", docTest.ErrorRow(), 3 );
XmlTest( "Error column", docTest.ErrorCol(), 17 );
//printf( "error=%d id='%s' row %d col%d\n", (int) doc.Error(), doc.ErrorDesc(), doc.ErrorRow()+1, doc.ErrorCol() + 1 );
}
#ifdef TIXML_USE_STL
{
//////////////////////////////////////////////////////
cout << "\n** Streaming. **\n";
// Round trip check: stream in, then stream back out to verify. The stream
// out has already been checked, above. We use the output
istringstream inputStringStream( outputStream.str() );
TiXmlDocument document0;
inputStringStream >> document0;
ostringstream outputStream0( ostringstream::out );
outputStream0 << document0;
XmlTest( "Stream round trip correct.", string( demoEnd ).c_str(),
outputStream0.str().c_str(), true );
std::string str;
str << document0;
XmlTest( "String printing correct.", string( demoEnd ).c_str(),
str.c_str(), true );
}
#endif
}
{
const char* str = "<doc attr0='1' attr1='2.0' attr2='foo' />";
TiXmlDocument doc;
doc.Parse( str );
TiXmlElement* ele = doc.FirstChildElement();
int iVal, result;
double dVal;
result = ele->QueryDoubleAttribute( "attr0", &dVal );
XmlTest( "Query attribute: int as double", result, TIXML_SUCCESS );
XmlTest( "Query attribute: int as double", (int)dVal, 1 );
result = ele->QueryDoubleAttribute( "attr1", &dVal );
XmlTest( "Query attribute: double as double", (int)dVal, 2 );
result = ele->QueryIntAttribute( "attr1", &iVal );
XmlTest( "Query attribute: double as int", result, TIXML_SUCCESS );
XmlTest( "Query attribute: double as int", iVal, 2 );
result = ele->QueryIntAttribute( "attr2", &iVal );
XmlTest( "Query attribute: not a number", result, TIXML_WRONG_TYPE );
result = ele->QueryIntAttribute( "bar", &iVal );
XmlTest( "Query attribute: does not exist", result, TIXML_NO_ATTRIBUTE );
}
{
const char* str = "<doc/>";
TiXmlDocument doc;
doc.Parse( str );
TiXmlElement* ele = doc.FirstChildElement();
int iVal;
double dVal;
ele->SetAttribute( "str", "strValue" );
ele->SetAttribute( "int", 1 );
ele->SetDoubleAttribute( "double", -1.0 );
const char* cStr = ele->Attribute( "str" );
ele->QueryIntAttribute( "int", &iVal );
ele->QueryDoubleAttribute( "double", &dVal );
XmlTest( "Attribute round trip. c-string.", "strValue", cStr );
XmlTest( "Attribute round trip. int.", 1, iVal );
XmlTest( "Attribute round trip. double.", -1, (int)dVal );
}
{
const char* str = "\t<?xml version=\"1.0\" standalone=\"no\" ?>\t<room doors='2'>\n"
"</room>";
TiXmlDocument doc;
doc.SetTabSize( 8 );
doc.Parse( str );
TiXmlHandle docHandle( &doc );
TiXmlHandle roomHandle = docHandle.FirstChildElement( "room" );
assert( docHandle.Node() );
assert( roomHandle.Element() );
TiXmlElement* room = roomHandle.Element();
assert( room );
TiXmlAttribute* doors = room->FirstAttribute();
assert( doors );
XmlTest( "Location tracking: Tab 8: room row", room->Row(), 1 );
XmlTest( "Location tracking: Tab 8: room col", room->Column(), 49 );
XmlTest( "Location tracking: Tab 8: doors row", doors->Row(), 1 );
XmlTest( "Location tracking: Tab 8: doors col", doors->Column(), 55 );
}
{
const char* str = "\t<?xml version=\"1.0\" standalone=\"no\" ?>\t<room doors='2'>\n"
" <!-- Silly example -->\n"
" <door wall='north'>A great door!</door>\n"
"\t<door wall='east'/>"
"</room>";
TiXmlDocument doc;
doc.Parse( str );
TiXmlHandle docHandle( &doc );
TiXmlHandle roomHandle = docHandle.FirstChildElement( "room" );
TiXmlHandle commentHandle = docHandle.FirstChildElement( "room" ).FirstChild();
TiXmlHandle textHandle = docHandle.FirstChildElement( "room" ).ChildElement( "door", 0 ).FirstChild();
TiXmlHandle door0Handle = docHandle.FirstChildElement( "room" ).ChildElement( 0 );
TiXmlHandle door1Handle = docHandle.FirstChildElement( "room" ).ChildElement( 1 );
assert( docHandle.Node() );
assert( roomHandle.Element() );
assert( commentHandle.Node() );
assert( textHandle.Text() );
assert( door0Handle.Element() );
assert( door1Handle.Element() );
TiXmlDeclaration* declaration = doc.FirstChild()->ToDeclaration();
assert( declaration );
TiXmlElement* room = roomHandle.Element();
assert( room );
TiXmlAttribute* doors = room->FirstAttribute();
assert( doors );
TiXmlText* text = textHandle.Text();
TiXmlComment* comment = commentHandle.Node()->ToComment();
assert( comment );
TiXmlElement* door0 = door0Handle.Element();
TiXmlElement* door1 = door1Handle.Element();
XmlTest( "Location tracking: Declaration row", declaration->Row(), 1 );
XmlTest( "Location tracking: Declaration col", declaration->Column(), 5 );
XmlTest( "Location tracking: room row", room->Row(), 1 );
XmlTest( "Location tracking: room col", room->Column(), 45 );
XmlTest( "Location tracking: doors row", doors->Row(), 1 );
XmlTest( "Location tracking: doors col", doors->Column(), 51 );
XmlTest( "Location tracking: Comment row", comment->Row(), 2 );
XmlTest( "Location tracking: Comment col", comment->Column(), 3 );
XmlTest( "Location tracking: text row", text->Row(), 3 );
XmlTest( "Location tracking: text col", text->Column(), 24 );
XmlTest( "Location tracking: door0 row", door0->Row(), 3 );
XmlTest( "Location tracking: door0 col", door0->Column(), 5 );
XmlTest( "Location tracking: door1 row", door1->Row(), 4 );
XmlTest( "Location tracking: door1 col", door1->Column(), 5 );
}
// --------------------------------------------------------
// UTF-8 testing. It is important to test:
// 1. Making sure name, value, and text read correctly
// 2. Row, Col functionality
// 3. Correct output
// --------------------------------------------------------
printf ("\n** UTF-8 **\n");
{
TiXmlDocument doc( "utf8test.xml" );
doc.LoadFile();
if ( doc.Error() && doc.ErrorId() == TiXmlBase::TIXML_ERROR_OPENING_FILE ) {
printf( "WARNING: File 'utf8test.xml' not found.\n"
"(Are you running the test from the wrong directory?)\n"
"Could not test UTF-8 functionality.\n" );
}
else
{
TiXmlHandle docH( &doc );
// Get the attribute "value" from the "Russian" element and check it.
TiXmlElement* element = docH.FirstChildElement( "document" ).FirstChildElement( "Russian" ).Element();
const unsigned char correctValue[] = { 0xd1U, 0x86U, 0xd0U, 0xb5U, 0xd0U, 0xbdU, 0xd0U, 0xbdU,
0xd0U, 0xbeU, 0xd1U, 0x81U, 0xd1U, 0x82U, 0xd1U, 0x8cU, 0 };
XmlTest( "UTF-8: Russian value.", (const char*)correctValue, element->Attribute( "value" ), true );
XmlTest( "UTF-8: Russian value row.", 4, element->Row() );
XmlTest( "UTF-8: Russian value column.", 5, element->Column() );
const unsigned char russianElementName[] = { 0xd0U, 0xa0U, 0xd1U, 0x83U,
0xd1U, 0x81U, 0xd1U, 0x81U,
0xd0U, 0xbaU, 0xd0U, 0xb8U,
0xd0U, 0xb9U, 0 };
const char russianText[] = "<\xD0\xB8\xD0\xBC\xD0\xB5\xD0\xB5\xD1\x82>";
TiXmlText* text = docH.FirstChildElement( "document" ).FirstChildElement( (const char*) russianElementName ).Child( 0 ).Text();
XmlTest( "UTF-8: Browsing russian element name.",
russianText,
text->Value(),
true );
XmlTest( "UTF-8: Russian element name row.", 7, text->Row() );
XmlTest( "UTF-8: Russian element name column.", 47, text->Column() );
TiXmlDeclaration* dec = docH.Child( 0 ).Node()->ToDeclaration();
XmlTest( "UTF-8: Declaration column.", 1, dec->Column() );
XmlTest( "UTF-8: Document column.", 1, doc.Column() );
// Now try for a round trip.
doc.SaveFile( "utf8testout.xml" );
// Check the round trip.
char savedBuf[256];
char verifyBuf[256];
int okay = 1;
FILE* saved = fopen( "data/utf8testout.xml", "r" );
FILE* verify = fopen( "data/utf8testverify.xml", "r" );
//bool firstLineBOM=true;
if ( saved && verify )
{
while ( fgets( verifyBuf, 256, verify ) )
{
fgets( savedBuf, 256, saved );
NullLineEndings( verifyBuf );
NullLineEndings( savedBuf );
if ( /*!firstLineBOM && */ strcmp( verifyBuf, savedBuf ) )
{
printf( "verify:%s<\n", verifyBuf );
printf( "saved :%s<\n", savedBuf );
okay = 0;
break;
}
//firstLineBOM = false;
}
}
if ( saved )
fclose( saved );
if ( verify )
fclose( verify );
XmlTest( "UTF-8: Verified multi-language round trip.", 1, okay );
// On most Western machines, this is an element that contains
// the word "resume" with the correct accents, in a latin encoding.
// It will be something else completely on non-wester machines,
// which is why TinyXml is switching to UTF-8.
const char latin[] = "<element>r\x82sum\x82</element>";
TiXmlDocument latinDoc;
latinDoc.Parse( latin, 0, TIXML_ENCODING_LEGACY );
text = latinDoc.FirstChildElement()->FirstChild()->ToText();
XmlTest( "Legacy encoding: Verify text element.", "r\x82sum\x82", text->Value() );
}
}
//////////////////////
// Copy and assignment
//////////////////////
printf ("\n** Copy and Assignment **\n");
{
TiXmlElement element( "foo" );
element.Parse( "<element name='value' />", 0, TIXML_ENCODING_UNKNOWN );
TiXmlElement elementCopy( element );
TiXmlElement elementAssign( "foo" );
elementAssign.Parse( "<incorrect foo='bar'/>", 0, TIXML_ENCODING_UNKNOWN );
elementAssign = element;
XmlTest( "Copy/Assign: element copy #1.", "element", elementCopy.Value() );
XmlTest( "Copy/Assign: element copy #2.", "value", elementCopy.Attribute( "name" ) );
XmlTest( "Copy/Assign: element assign #1.", "element", elementAssign.Value() );
XmlTest( "Copy/Assign: element assign #2.", "value", elementAssign.Attribute( "name" ) );
XmlTest( "Copy/Assign: element assign #3.", true, ( 0 == elementAssign.Attribute( "foo" )) );
TiXmlComment comment;
comment.Parse( "<!--comment-->", 0, TIXML_ENCODING_UNKNOWN );
TiXmlComment commentCopy( comment );
TiXmlComment commentAssign;
commentAssign = commentCopy;
XmlTest( "Copy/Assign: comment copy.", "comment", commentCopy.Value() );
XmlTest( "Copy/Assign: comment assign.", "comment", commentAssign.Value() );
TiXmlUnknown unknown;
unknown.Parse( "<[unknown]>", 0, TIXML_ENCODING_UNKNOWN );
TiXmlUnknown unknownCopy( unknown );
TiXmlUnknown unknownAssign;
unknownAssign.Parse( "incorrect", 0, TIXML_ENCODING_UNKNOWN );
unknownAssign = unknownCopy;
XmlTest( "Copy/Assign: unknown copy.", "[unknown]", unknownCopy.Value() );
XmlTest( "Copy/Assign: unknown assign.", "[unknown]", unknownAssign.Value() );
TiXmlText text( "TextNode" );
TiXmlText textCopy( text );
TiXmlText textAssign( "incorrect" );
textAssign = text;
XmlTest( "Copy/Assign: text copy.", "TextNode", textCopy.Value() );
XmlTest( "Copy/Assign: text assign.", "TextNode", textAssign.Value() );
TiXmlDeclaration dec;
dec.Parse( "<?xml version='1.0' encoding='UTF-8'?>", 0, TIXML_ENCODING_UNKNOWN );
TiXmlDeclaration decCopy( dec );
TiXmlDeclaration decAssign;
decAssign = dec;
XmlTest( "Copy/Assign: declaration copy.", "UTF-8", decCopy.Encoding() );
XmlTest( "Copy/Assign: text assign.", "UTF-8", decAssign.Encoding() );
TiXmlDocument doc;
elementCopy.InsertEndChild( textCopy );
doc.InsertEndChild( decAssign );
doc.InsertEndChild( elementCopy );
doc.InsertEndChild( unknownAssign );
TiXmlDocument docCopy( doc );
TiXmlDocument docAssign;
docAssign = docCopy;
#ifdef TIXML_USE_STL
std::string original, copy, assign;
original << doc;
copy << docCopy;
assign << docAssign;
XmlTest( "Copy/Assign: document copy.", original.c_str(), copy.c_str(), true );
XmlTest( "Copy/Assign: document assign.", original.c_str(), assign.c_str(), true );
#endif
}
//////////////////////////////////////////////////////
#ifdef TIXML_USE_STL
printf ("\n** Parsing, no Condense Whitespace **\n");
TiXmlBase::SetCondenseWhiteSpace( false );
{
istringstream parse1( "<start>This is \ntext</start>" );
TiXmlElement text1( "text" );
parse1 >> text1;
XmlTest ( "Condense white space OFF.", "This is \ntext",
text1.FirstChild()->Value(),
true );
}
TiXmlBase::SetCondenseWhiteSpace( true );
#endif
//////////////////////////////////////////////////////
// GetText();
{
const char* str = "<foo>This is text</foo>";
TiXmlDocument doc;
doc.Parse( str );
const TiXmlElement* element = doc.RootElement();
XmlTest( "GetText() normal use.", "This is text", element->GetText() );
str = "<foo><b>This is text</b></foo>";
doc.Clear();
doc.Parse( str );
element = doc.RootElement();
XmlTest( "GetText() contained element.", element->GetText() == 0, true );
str = "<foo>This is <b>text</b></foo>";
doc.Clear();
TiXmlBase::SetCondenseWhiteSpace( false );
doc.Parse( str );
TiXmlBase::SetCondenseWhiteSpace( true );
element = doc.RootElement();
XmlTest( "GetText() partial.", "This is ", element->GetText() );
}
//////////////////////////////////////////////////////
// CDATA
{
const char* str = "<xmlElement>"
"<![CDATA["
"I am > the rules!\n"
"...since I make symbolic puns"
"]]>"
"</xmlElement>";
TiXmlDocument doc;
doc.Parse( str );
doc.Print();
XmlTest( "CDATA parse.", doc.FirstChildElement()->FirstChild()->Value(),
"I am > the rules!\n...since I make symbolic puns",
true );
#ifdef TIXML_USE_STL
//cout << doc << '\n';
doc.Clear();
istringstream parse0( str );
parse0 >> doc;
//cout << doc << '\n';
XmlTest( "CDATA stream.", doc.FirstChildElement()->FirstChild()->Value(),
"I am > the rules!\n...since I make symbolic puns",
true );
#endif
TiXmlDocument doc1 = doc;
//doc.Print();
XmlTest( "CDATA copy.", doc1.FirstChildElement()->FirstChild()->Value(),
"I am > the rules!\n...since I make symbolic puns",
true );
}
{
// [ 1482728 ] Wrong wide char parsing
char buf[256];
buf[255] = 0;
for( int i=0; i<255; ++i ) {
buf[i] = (char)((i>=32) ? i : 32);
}
TIXML_STRING str( "<xmlElement><![CDATA[" );
str += buf;
str += "]]></xmlElement>";
TiXmlDocument doc;
doc.Parse( str.c_str() );
TiXmlPrinter printer;
printer.SetStreamPrinting();
doc.Accept( &printer );
XmlTest( "CDATA with all bytes #1.", str.c_str(), printer.CStr(), true );
#ifdef TIXML_USE_STL
doc.Clear();
istringstream iss( printer.Str() );
iss >> doc;
std::string out;
out << doc;
XmlTest( "CDATA with all bytes #2.", out.c_str(), printer.CStr(), true );
#endif
}
{
// [ 1480107 ] Bug-fix for STL-streaming of CDATA that contains tags
// CDATA streaming had a couple of bugs, that this tests for.
const char* str = "<xmlElement>"
"<![CDATA["
"<b>I am > the rules!</b>\n"
"...since I make symbolic puns"
"]]>"
"</xmlElement>";
TiXmlDocument doc;
doc.Parse( str );
doc.Print();
XmlTest( "CDATA parse. [ 1480107 ]", doc.FirstChildElement()->FirstChild()->Value(),
"<b>I am > the rules!</b>\n...since I make symbolic puns",
true );
#ifdef TIXML_USE_STL
doc.Clear();
istringstream parse0( str );
parse0 >> doc;
XmlTest( "CDATA stream. [ 1480107 ]", doc.FirstChildElement()->FirstChild()->Value(),
"<b>I am > the rules!</b>\n...since I make symbolic puns",
true );
#endif
TiXmlDocument doc1 = doc;
//doc.Print();
XmlTest( "CDATA copy. [ 1480107 ]", doc1.FirstChildElement()->FirstChild()->Value(),
"<b>I am > the rules!</b>\n...since I make symbolic puns",
true );
}
//////////////////////////////////////////////////////
// Visit()
//////////////////////////////////////////////////////
printf( "\n** Fuzzing... **\n" );
const int FUZZ_ITERATION = 300;
// The only goal is not to crash on bad input.
int len = (int) strlen( demoStart );
for( int i=0; i<FUZZ_ITERATION; ++i )
{
char* demoCopy = new char[ len+1 ];
strcpy( demoCopy, demoStart );
demoCopy[ i%len ] = (char)((i+1)*3);
demoCopy[ (i*7)%len ] = '>';
demoCopy[ (i*11)%len ] = '<';
TiXmlDocument xml;
xml.Parse( demoCopy );
delete [] demoCopy;
}
printf( "** Fuzzing Complete. **\n" );
//////////////////////////////////////////////////////
printf ("\n** Bug regression tests **\n");
// InsertBeforeChild and InsertAfterChild causes crash.
{
TiXmlElement parent( "Parent" );
TiXmlElement childText0( "childText0" );
TiXmlElement childText1( "childText1" );
TiXmlNode* childNode0 = parent.InsertEndChild( childText0 );
TiXmlNode* childNode1 = parent.InsertBeforeChild( childNode0, childText1 );
XmlTest( "Test InsertBeforeChild on empty node.", ( childNode1 == parent.FirstChild() ), true );
}
{
// InsertBeforeChild and InsertAfterChild causes crash.
TiXmlElement parent( "Parent" );
TiXmlElement childText0( "childText0" );
TiXmlElement childText1( "childText1" );
TiXmlNode* childNode0 = parent.InsertEndChild( childText0 );
TiXmlNode* childNode1 = parent.InsertAfterChild( childNode0, childText1 );
XmlTest( "Test InsertAfterChild on empty node. ", ( childNode1 == parent.LastChild() ), true );
}
// Reports of missing constructors, irregular string problems.
{
// Missing constructor implementation. No test -- just compiles.
TiXmlText text( "Missing" );
#ifdef TIXML_USE_STL
// Missing implementation:
TiXmlDocument doc;
string name = "missing";
doc.LoadFile( name );
TiXmlText textSTL( name );
#else
// verifying some basic string functions:
TiXmlString a;
TiXmlString b( "Hello" );
TiXmlString c( "ooga" );
c = " World!";
a = b;
a += c;
a = a;
XmlTest( "Basic TiXmlString test. ", "Hello World!", a.c_str() );
#endif
}
// Long filenames crashing STL version
{
TiXmlDocument doc( "midsummerNightsDreamWithAVeryLongFilenameToConfuseTheStringHandlingRoutines.xml" );
bool loadOkay = doc.LoadFile();
loadOkay = true; // get rid of compiler warning.
// Won't pass on non-dev systems. Just a "no crash" check.
//XmlTest( "Long filename. ", true, loadOkay );
}
{
// Entities not being written correctly.
// From Lynn Allen
const char* passages =
"<?xml version=\"1.0\" standalone=\"no\" ?>"
"<passages count=\"006\" formatversion=\"20020620\">"
"<psg context=\"Line 5 has "quotation marks" and 'apostrophe marks'."
" It also has <, >, and &, as well as a fake copyright ©.\"> </psg>"
"</passages>";
TiXmlDocument doc( "passages.xml" );
doc.Parse( passages );
TiXmlElement* psg = doc.RootElement()->FirstChildElement();
const char* context = psg->Attribute( "context" );
const char* expected = "Line 5 has \"quotation marks\" and 'apostrophe marks'. It also has <, >, and &, as well as a fake copyright \xC2\xA9.";
XmlTest( "Entity transformation: read. ", expected, context, true );
FILE* textfile = fopen( "textfile.txt", "w" );
if ( textfile )
{
psg->Print( textfile, 0 );
fclose( textfile );
}
textfile = fopen( "textfile.txt", "r" );
assert( textfile );
if ( textfile )
{
char buf[ 1024 ];
fgets( buf, 1024, textfile );
XmlTest( "Entity transformation: write. ",
"<psg context=\'Line 5 has "quotation marks" and 'apostrophe marks'."
" It also has <, >, and &, as well as a fake copyright \xC2\xA9.' />",
buf,
true );
}
fclose( textfile );
}
{
FILE* textfile = fopen( "test5.xml", "w" );
if ( textfile )
{
fputs("<?xml version='1.0'?><a.elem xmi.version='2.0'/>", textfile);
fclose(textfile);
TiXmlDocument doc;
doc.LoadFile( "test5.xml" );
XmlTest( "dot in element attributes and names", doc.Error(), 0);
}
}
{
FILE* textfile = fopen( "test6.xml", "w" );
if ( textfile )
{
fputs("<element><Name>1.1 Start easy ignore fin thickness
</Name></element>", textfile );
fclose(textfile);
TiXmlDocument doc;
bool result = doc.LoadFile( "test6.xml" );
XmlTest( "Entity with one digit.", result, true );
TiXmlText* text = doc.FirstChildElement()->FirstChildElement()->FirstChild()->ToText();
XmlTest( "Entity with one digit.",
text->Value(), "1.1 Start easy ignore fin thickness\n" );
}
}
{
// DOCTYPE not preserved (950171)
//
const char* doctype =
"<?xml version=\"1.0\" ?>"
"<!DOCTYPE PLAY SYSTEM 'play.dtd'>"
"<!ELEMENT title (#PCDATA)>"
"<!ELEMENT books (title,authors)>"
"<element />";
TiXmlDocument doc;
doc.Parse( doctype );
doc.SaveFile( "test7.xml" );
doc.Clear();
doc.LoadFile( "test7.xml" );
TiXmlHandle docH( &doc );
TiXmlUnknown* unknown = docH.Child( 1 ).Unknown();
XmlTest( "Correct value of unknown.", "!DOCTYPE PLAY SYSTEM 'play.dtd'", unknown->Value() );
#ifdef TIXML_USE_STL
TiXmlNode* node = docH.Child( 2 ).Node();
std::string str;
str << (*node);
XmlTest( "Correct streaming of unknown.", "<!ELEMENT title (#PCDATA)>", str.c_str() );
#endif
}
{
// [ 791411 ] Formatting bug
// Comments do not stream out correctly.
const char* doctype =
"<!-- Somewhat<evil> -->";
TiXmlDocument doc;
doc.Parse( doctype );
TiXmlHandle docH( &doc );
TiXmlComment* comment = docH.Child( 0 ).Node()->ToComment();
XmlTest( "Comment formatting.", " Somewhat<evil> ", comment->Value() );
#ifdef TIXML_USE_STL
std::string str;
str << (*comment);
XmlTest( "Comment streaming.", "<!-- Somewhat<evil> -->", str.c_str() );
#endif
}
{
// [ 870502 ] White space issues
TiXmlDocument doc;
TiXmlText* text;
TiXmlHandle docH( &doc );
const char* doctype0 = "<element> This has leading and trailing space </element>";
const char* doctype1 = "<element>This has internal space</element>";
const char* doctype2 = "<element> This has leading, trailing, and internal space </element>";
TiXmlBase::SetCondenseWhiteSpace( false );
doc.Clear();
doc.Parse( doctype0 );
text = docH.FirstChildElement( "element" ).Child( 0 ).Text();
XmlTest( "White space kept.", " This has leading and trailing space ", text->Value() );
doc.Clear();
doc.Parse( doctype1 );
text = docH.FirstChildElement( "element" ).Child( 0 ).Text();
XmlTest( "White space kept.", "This has internal space", text->Value() );
doc.Clear();
doc.Parse( doctype2 );
text = docH.FirstChildElement( "element" ).Child( 0 ).Text();
XmlTest( "White space kept.", " This has leading, trailing, and internal space ", text->Value() );
TiXmlBase::SetCondenseWhiteSpace( true );
doc.Clear();
doc.Parse( doctype0 );
text = docH.FirstChildElement( "element" ).Child( 0 ).Text();
XmlTest( "White space condensed.", "This has leading and trailing space", text->Value() );
doc.Clear();
doc.Parse( doctype1 );
text = docH.FirstChildElement( "element" ).Child( 0 ).Text();
XmlTest( "White space condensed.", "This has internal space", text->Value() );
doc.Clear();
doc.Parse( doctype2 );
text = docH.FirstChildElement( "element" ).Child( 0 ).Text();
XmlTest( "White space condensed.", "This has leading, trailing, and internal space", text->Value() );
}
{
// Double attributes
const char* doctype = "<element attr='red' attr='blue' />";
TiXmlDocument doc;
doc.Parse( doctype );
XmlTest( "Parsing repeated attributes.", true, doc.Error() ); // is an error to tinyxml (didn't use to be, but caused issues)
//XmlTest( "Parsing repeated attributes.", "blue", doc.FirstChildElement( "element" )->Attribute( "attr" ) );
}
{
// Embedded null in stream.
const char* doctype = "<element att\0r='red' attr='blue' />";
TiXmlDocument doc;
doc.Parse( doctype );
XmlTest( "Embedded null throws error.", true, doc.Error() );
#ifdef TIXML_USE_STL
istringstream strm( doctype );
doc.Clear();
doc.ClearError();
strm >> doc;
XmlTest( "Embedded null throws error.", true, doc.Error() );
#endif
}
{
/** // Legacy mode test. (This test may only pass on a western system)
const char* str =
"<?xml version=\"1.0\" encoding=\"ISO-8859-1\"?>"
"<?"
"C鰊t鋘t咪鳇闹?"
"</?";
TiXmlDocument doc;
doc.Parse( str );
TiXmlHandle docHandle( &doc );
TiXmlHandle aHandle = docHandle.FirstChildElement( "?" );
TiXmlHandle tHandle = aHandle.Child( 0 );
assert( aHandle.Element() );
assert( tHandle.Text() );
XmlTest( "ISO-8859-1 Parsing.", "C鰊t鋘t咪鳇闹?, tHandle.Text()->Value() ");
}
{
// Empty documents should return TIXML_ERROR_PARSING_EMPTY, bug 1070717
const char* str = " ";
TiXmlDocument doc;
doc.Parse( str );
XmlTest( "Empty document error TIXML_ERROR_DOCUMENT_EMPTY", TiXmlBase::TIXML_ERROR_DOCUMENT_EMPTY, doc.ErrorId() );
}
#ifndef TIXML_USE_STL
{
// String equality. [ 1006409 ] string operator==/!= no worky in all cases
TiXmlString temp;
XmlTest( "Empty tinyxml string compare equal", ( temp == "" ), true );
TiXmlString foo;
TiXmlString bar( "" );
XmlTest( "Empty tinyxml string compare equal", ( foo == bar ), true );
}
#endif
{
// Bug [ 1195696 ] from marlonism
TiXmlBase::SetCondenseWhiteSpace(false);
TiXmlDocument xml;
xml.Parse("<text><break/>This hangs</text>");
XmlTest( "Test safe error return.", xml.Error(), false );
}
{
// Bug [ 1243992 ] - another infinite loop
TiXmlDocument doc;
doc.SetCondenseWhiteSpace(false);
doc.Parse("<p><pb></pb>test</p>");
}
{
// Low entities
TiXmlDocument xml;
xml.Parse( "<test></test>" );
const char result[] = { 0x0e, 0 };
XmlTest( "Low entities.", xml.FirstChildElement()->GetText(), result );
xml.Print();
}
{
// Bug [ 1451649 ] Attribute values with trailing quotes not handled correctly
TiXmlDocument xml;
xml.Parse( "<foo attribute=bar\" />" );
XmlTest( "Throw error with bad end quotes.", xml.Error(), true );
}
#ifdef TIXML_USE_STL
{
// Bug [ 1449463 ] Consider generic query
TiXmlDocument xml;
xml.Parse( "<foo bar='3' barStr='a string'/>" );
TiXmlElement* ele = xml.FirstChildElement();
double d;
int i;
float f;
bool b;
std::string str;
XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "bar", &d ), TIXML_SUCCESS );
XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "bar", &i ), TIXML_SUCCESS );
XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "bar", &f ), TIXML_SUCCESS );
XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "bar", &b ), TIXML_WRONG_TYPE );
XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "nobar", &b ), TIXML_NO_ATTRIBUTE );
XmlTest( "QueryValueAttribute", ele->QueryValueAttribute( "barStr", &str ), TIXML_SUCCESS );
XmlTest( "QueryValueAttribute", (d==3.0), true );
XmlTest( "QueryValueAttribute", (i==3), true );
XmlTest( "QueryValueAttribute", (f==3.0f), true );
XmlTest( "QueryValueAttribute", (str==std::string( "a string" )), true );
}
#endif
#ifdef TIXML_USE_STL
{
// [ 1505267 ] redundant malloc in TiXmlElement::Attribute
TiXmlDocument xml;
xml.Parse( "<foo bar='3' />" );
TiXmlElement* ele = xml.FirstChildElement();
double d;
int i;
std::string bar = "bar";
const std::string* atrrib = ele->Attribute( bar );
ele->Attribute( bar, &d );
ele->Attribute( bar, &i );
XmlTest( "Attribute", atrrib->empty(), false );
XmlTest( "Attribute", (d==3.0), true );
XmlTest( "Attribute", (i==3), true );
}
#endif
{
// [ 1356059 ] Allow TiXMLDocument to only be at the top level
TiXmlDocument xml, xml2;
xml.InsertEndChild( xml2 );
XmlTest( "Document only at top level.", xml.Error(), true );
XmlTest( "Document only at top level.", xml.ErrorId(), TiXmlBase::TIXML_ERROR_DOCUMENT_TOP_ONLY );
}
{
// [ 1663758 ] Failure to report error on bad XML
TiXmlDocument xml;
xml.Parse("<x>");
XmlTest("Missing end tag at end of input", xml.Error(), true);
xml.Parse("<x> ");
XmlTest("Missing end tag with trailing whitespace", xml.Error(), true);
}
{
// [ 1635701 ] fail to parse files with a tag separated into two lines
// I'm not sure this is a bug. Marked 'pending' for feedback.
TiXmlDocument xml;
xml.Parse( "<title><p>text</p\n><title>" );
//xml.Print();
//XmlTest( "Tag split by newline", xml.Error(), false );
}
#ifdef TIXML_USE_STL
{
// [ 1475201 ] TinyXML parses entities in comments
TiXmlDocument xml;
istringstream parse1( "<!-- declarations for <head> & <body> -->"
"<!-- far & away -->" );
parse1 >> xml;
TiXmlNode* e0 = xml.FirstChild();
TiXmlNode* e1 = e0->NextSibling();
TiXmlComment* c0 = e0->ToComment();
TiXmlComment* c1 = e1->ToComment();
XmlTest( "Comments ignore entities.", " declarations for <head> & <body> ", c0->Value(), true );
XmlTest( "Comments ignore entities.", " far & away ", c1->Value(), true );
}
#endif
{
// [ 1475201 ] TinyXML parses entities in comments
TiXmlDocument xml;
xml.Parse("<!-- declarations for <head> & <body> -->"
"<!-- far & away -->" );
TiXmlNode* e0 = xml.FirstChild();
TiXmlNode* e1 = e0->NextSibling();
TiXmlComment* c0 = e0->ToComment();
TiXmlComment* c1 = e1->ToComment();
XmlTest( "Comments ignore entities.", " declarations for <head> & <body> ", c0->Value(), true );
XmlTest( "Comments ignore entities.", " far & away ", c1->Value(), true );
}
{
TiXmlDocument xml;
xml.Parse( "<Parent>"
"<child1 att=''/>"
"<!-- With this comment, child2 will not be parsed! -->"
"<child2 att=''/>"
"</Parent>" );
int count = 0;
TiXmlNode* ele = 0;
while ( (ele = xml.FirstChildElement( "Parent" )->IterateChildren( ele ) ) != 0 ) {
++count;
}
XmlTest( "Comments iterate correctly.", 3, count );
}
{
// trying to repro ]1874301]. If it doesn't go into an infinite loop, all is well.
unsigned char buf[] = "<?xml version=\"1.0\" encoding=\"utf-8\"?><feed><![CDATA[Test XMLblablablalblbl";
buf[60] = 239;
buf[61] = 0;
TiXmlDocument doc;
doc.Parse( (const char*)buf);
}
{
// bug 1827248 Error while parsing a little bit malformed file
// Actually not malformed - should work.
TiXmlDocument xml;
xml.Parse( "<attributelist> </attributelist >" );
XmlTest( "Handle end tag whitespace", false, xml.Error() );
}
{
// This one must not result in an infinite loop
TiXmlDocument xml;
xml.Parse( "<infinite>loop" );
XmlTest( "Infinite loop test.", true, true );
}
{
// 1709904 - can not repro the crash
{
TiXmlDocument xml;
xml.Parse( "<tag>/</tag>" );
XmlTest( "Odd XML parsing.", xml.FirstChild()->Value(), "tag" );
}
/* Could not repro. {
TiXmlDocument xml;
xml.LoadFile( "EQUI_Inventory.xml" );
//XmlTest( "Odd XML parsing.", xml.FirstChildElement()->Value(), "XML" );
TiXmlPrinter printer;
xml.Accept( &printer );
fprintf( stdout, "%s", printer.CStr() );
}*/
}
/* 1417717 experiment
{
TiXmlDocument xml;
xml.Parse("<text>Dan & Tracie</text>");
xml.Print(stdout);
}
{
TiXmlDocument xml;
xml.Parse("<text>Dan &foo; Tracie</text>");
xml.Print(stdout);
}
*/
#if defined( WIN32 ) && defined( TUNE )
_CrtMemCheckpoint( &endMemState );
//_CrtMemDumpStatistics( &endMemState );
_CrtMemState diffMemState;
_CrtMemDifference( &diffMemState, &startMemState, &endMemState );
_CrtMemDumpStatistics( &diffMemState );
#endif
printf ("\nPass %d, Fail %d\n", gPass, gFail);
return gFail;
}
string ProRataConfig::getValue( TiXmlDocument &txdDoc,
const vector<string> &vsTagList )
{
// Check to see if the provided XML node is valid.
// If yes, extract the value from the node return it.
// If no, return emply string.
// creat a pointer to a node
TiXmlNode * txnTemp = NULL;
// check if the tree path is not empty
if ( vsTagList.size() < 1 )
return string("");
// iterator for the input vsTagList
vector<string>::const_iterator itrTagListItr;
itrTagListItr = vsTagList.begin();
// move the pointer to txddoc's first child with the specified tag name
txnTemp = txdDoc.FirstChild( (*itrTagListItr ).c_str() );
// check if this element exists
if ( ! txnTemp )
{
cout << "ERROR: TAG\"" << (*itrTagListItr) <<
"\" not found in the configuration file." << endl;
return string("");
}
itrTagListItr++;
// move the pointer down the hierarchial tree of elements
for( ; itrTagListItr != vsTagList.end(); itrTagListItr++ )
{
txnTemp = txnTemp->FirstChild( (*itrTagListItr ).c_str() );
if ( ! txnTemp )
{
cout << "ERROR: TAG\"" << (*itrTagListItr) <<
"\" not found in the configuration file." << endl;
return string("");
}
}
// move the iterator back to point it to the last element name
itrTagListItr--;
/*
* inside the pointed element, there could be a mixture of
* text nodes, comment nodes and element nodes
* loop thru every nodes and for each text nodes, retrieve their text
* concatenate the text together and return them
*/
TiXmlText *txs;
string sTemp = "";
// point txnTemp to the child nodes and loop thru every child node
for( txnTemp = txnTemp->FirstChild(); txnTemp; txnTemp = txnTemp->NextSibling() )
{
// if this node is pointing to a node of type TEXT, which equals 4 in enum NodeType
if( txnTemp->Type() == 4 )
{
// cast txnTemp to a text node
txs = txnTemp->ToText();
// get txnTemp's value and then append it to sTemp
if( txs )
sTemp.append( txs->Value() );
}
}
return sTemp;
}
/**
* 构建这样的树结构
*[A]------|
* | |
* | [A1]
* | |
* | [A2]----|
* | | [A21]----|
* | | | |
* | NULL NULL [A211]
* | |
* | [A212]
* | |
* | NULL
*[B]
* */
tixmlCodeNode * tixmlCode::traceNode1(tixmlCodeNode *root,TiXmlNode *node)
{
static std::string WHILE = "while";
static std::string WHEN = "when";
static std::string IF = "if";
tixmlCodeNode * now = NULL;
tixmlCodeNode * parent = root;
tixmlCodeNode * pre = NULL;
TiXmlNode *nowNode = node;
while (!nowNode || nowNode->Type() != TiXmlNode::TINYXML_ELEMENT)
{
nowNode = nowNode->NextSiblingElement();
}
if (!nowNode || nowNode->Type() != TiXmlNode::TINYXML_ELEMENT) return NULL;
while (true)
{
if (!nowNode) // 当前节点为空
{
if (!parent) break;
nowNode = parent->element->NextSiblingElement();
parent = parent->parent;
if (!parent) break;
continue;
}
now = new tixmlCodeNode;
if (!root)
{
root = now;
}
now->init(nowNode->ToElement());
// printf("[script]处理节点 %s\n",now->nodeName.str());
std::string& name = now->nodeName;
if (name == WHILE || name == WHEN || name == IF)
{
void * code = getAction(now->getAttr("action"));
// if (!code) printf("[script] 处理节点 %s 获取action 失败\n",now->getAttr("action"));
now->setExtData(code);
}
else
{
void* code = getAction(now->nodeName.c_str());
// if (!code) printf("[script] 处理节点 %s 获取action 失败\n",now->nodeName.str());
now->setExtData(code);
}
if (pre && !pre->next)
{
pre->next = now;
// printf("[script]---------------- 处理节点 %s 的下一个节点 %s-----------\n",pre->nodeName.str(),now->nodeName.str());
pre = NULL;
}
now->parent = parent;
if (now->parent)
{
if (parent->childs.size())
pre = parent->childs.back();
parent->childs.push_back(now);
}
TiXmlNode * child = nowNode->FirstChildElement();
TiXmlNode *tchild = nowNode->FirstChild();
if ((child == NULL || (tchild && tchild->Type() == TiXmlNode::TINYXML_TEXT)) && parent) // 如果当前无孩子 且有父亲节点
{
if (tchild)
{
// 获取节点的文档描述
TiXmlText *pText = tchild->ToText();
if (pText)
{
//std::string str;
//str<<*nowNode;
//sys::sString value(str.c_str());
std::string value(pText->Value());
// std::string vs = value.toXmlString();
now->setText(value);
// printf("----获取文本内容 %s----\n",vs.str());
}
}
if (pre && !pre->next)
{
pre->next = now;
// printf("[SCRIPT]--------------- 当前节点 %s 下一个节点%s -----------\n",pre->nodeName.str(),now->nodeName.str());
}
if (!now->element->NextSiblingElement())
{
pre = NULL;// TODO now;
nowNode = parent->element->NextSiblingElement();
parent = parent->parent;
if (parent)
{
// printf("[script] 回溯到父节点:%s\n",parent->nodeName.str());
}
else break;
}
else
{
nowNode = now->element->NextSiblingElement();
}
if (parent)
{
// printf("[script] 当前节点%s无孩子节点 有父节点%s\n",now->nodeName.str(),parent->nodeName.str());
}
else
break;
}
else if (child) // 当前有孩子
{
if (pre && !pre->next)
{
pre->next = now;
// printf("[SCRIPT]--------------- 当前节点 %s 下一个节点%s -----------\n",pre->nodeName.str(),now->nodeName.str());
}
nowNode = child; // 准备执行下一个节点
// printf("[script]当前节点有孩子节点 %s\n",now->nodeName.str());
parent = now;
}
else // 当前无孩子 且 无 父亲节点 则退出
{
break;
}
}
return root;
}
TuringPtr generateTM(const std::string& fileName) {
TiXmlDocument doc;
std::string path = DATADIR + fileName;
if(!doc.LoadFile(path.c_str()))
{
throw std::runtime_error("Error generating TM from XML: File not found!");
}
TiXmlElement* root = doc.FirstChildElement();
std::string rootName;
if(root == NULL)
{
throw std::runtime_error("Error generating TM from XML: Failed to load file: No root element.");
doc.Clear();
}
rootName = root->Value();
if (rootName != "TM") {
throw std::runtime_error("Error generating TM from XML: Not a Turing Machine XML file!");
}
std::set<char> alphabet;
std::set<char> tapeAlphabet;
bool allFound = false;
char blank = 0;
for(TiXmlElement* elem = root->FirstChildElement(); elem != NULL; elem = elem->NextSiblingElement()) { //find alphabets and blank symbol
std::string elemName = elem->Value();
if (elemName == "InputAlphabet") {
for(TiXmlElement* elemOfSigma = elem->FirstChildElement(); elemOfSigma != NULL; elemOfSigma = elemOfSigma->NextSiblingElement()) {
std::string elemOfSigmaName = elemOfSigma->Value();
if (elemOfSigmaName == "symbol") {
TiXmlNode* e = elemOfSigma->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
if (t.size() != 1)
throw std::runtime_error("Error generating TM from XML: One input symbol per node please");
alphabet.insert(t.front());
}
}
}
if (elemName == "TapeAlphabet") {
for(TiXmlElement* elemOfGamma = elem->FirstChildElement(); elemOfGamma != NULL; elemOfGamma = elemOfGamma->NextSiblingElement()) {
std::string elemOfGammaName = elemOfGamma->Value();
if (elemOfGammaName == "symbol") {
TiXmlNode* e = elemOfGamma->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
if (t.size() != 1) {
throw std::runtime_error("Error generating TM from XML: One input symbol per node please");
}
tapeAlphabet.insert(t.front());
}
}
}
if (elemName == "Blank") {
TiXmlNode* e = elem->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
if (t.size() != 1) {
throw std::runtime_error("Error generating TM from XML: One blank symbol please");
}
blank = t.front();
}
if (tapeAlphabet.size() && alphabet.size() && blank) { //All arguments necessary to construct TM found
allFound = true;
break;
}
}
if (!allFound) {
throw std::runtime_error("Error generating TM from XML: Alphabet, tape alphabet or blank symbol missing!");
return nullptr;
}
TuringPtr TM(new TuringMachine(alphabet, tapeAlphabet, blank));
for(TiXmlElement* elem = root->FirstChildElement(); elem != NULL; elem = elem->NextSiblingElement()) { //find alphabets and blank symbol
std::string elemName = elem->Value();
if (elemName == "States") {
const char* attr = elem->Attribute("storage");
bool hasStorage = false;
std::vector<std::vector<char>> storages;
if (attr) {
std::string statesAttr(attr);
if (statesAttr == "true")
hasStorage = true;
}
if (hasStorage) {
for(TiXmlElement* elemOfQ = elem->FirstChildElement(); elemOfQ != NULL; elemOfQ = elemOfQ->NextSiblingElement()) {
std::string elemOfQName = elemOfQ->Value();
if (elemOfQName == "storage") {
if (elemOfQ->FirstChild() == NULL) {
storages.push_back(std::vector<char> ());
continue;
}
TiXmlNode* e = elemOfQ->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
std::vector<char> thisStorage;
for (auto i : t)
thisStorage.push_back(i);
storages.push_back(thisStorage);
}
}
}
for(TiXmlElement* elemOfQ = elem->FirstChildElement(); elemOfQ != NULL; elemOfQ = elemOfQ->NextSiblingElement()) {
bool isStarting = false;
bool isAccepting = false;
std::string elemOfQName = elemOfQ->Value();
if (elemOfQName == "state") {
const char* attr = elemOfQ->Attribute("start");
if (attr) {
std::string stateAttr(attr);
if (stateAttr == "true")
isStarting = true;
}
attr = elemOfQ->Attribute("accept");
if (attr) {
std::string stateAttr(attr);
if (stateAttr == "true")
isAccepting = true;
}
if (elemOfQ->FirstChild() == NULL) {
throw std::runtime_error("Error generating TM from XML: State without name");
}
TiXmlNode* e = elemOfQ->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
if (!hasStorage)
TM->addState(t, isStarting, isAccepting);
else
for (auto i : storages)
TM->addState(t, isStarting, isAccepting, i);
}
}
}
if (elemName == "Transitions") {
for(TiXmlElement* elemOfDelta = elem->FirstChildElement(); elemOfDelta != NULL; elemOfDelta = elemOfDelta->NextSiblingElement()) {
std::string elemOfDeltaName = elemOfDelta->Value();
if (elemOfDeltaName == "transition") {
std::string from = "";
std::string to = "";
std::vector<char> fromStorage;
std::vector<char> toStorage;
std::vector<char> read;
std::vector<char> write;
Direction dir = U;
for(TiXmlElement* elemOfTransition = elemOfDelta->FirstChildElement(); elemOfTransition != NULL; elemOfTransition = elemOfTransition->NextSiblingElement()) {
std::string elemOfTransitionName = elemOfTransition->Value();
if (elemOfTransitionName == "from") {
if (elemOfTransition->FirstChild() == NULL) {
continue;
}
TiXmlNode* e = elemOfTransition->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
from = t;
}
if (elemOfTransitionName == "to") {
if (elemOfTransition->FirstChild() == NULL) {
continue;
}
TiXmlNode* e = elemOfTransition->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
to = t;
}
if (elemOfTransitionName == "fromStorage") {
if (elemOfTransition->FirstChild() == NULL) {
continue;
}
TiXmlNode* e = elemOfTransition->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
for (auto i : t)
fromStorage.push_back(i);
}
if (elemOfTransitionName == "toStorage") {
if (elemOfTransition->FirstChild() == NULL) {
continue;
}
TiXmlNode* e = elemOfTransition->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
for (auto i : t)
toStorage.push_back(i);
}
if (elemOfTransitionName == "read") {
if (elemOfTransition->FirstChild() == NULL) {
continue;
}
TiXmlNode* e = elemOfTransition->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
for (auto i : t)
read.push_back(i);
}
if (elemOfTransitionName == "write") {
if (elemOfTransition->FirstChild() == NULL) {
continue;
}
TiXmlNode* e = elemOfTransition->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
for (auto i : t)
write.push_back(i);
}
if (elemOfTransitionName == "dir") {
if (elemOfTransition->FirstChild() == NULL) {
continue;
}
TiXmlNode* e = elemOfTransition->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
if (t == "L")
dir = L;
else if (t == "R")
dir = R;
else
throw std::runtime_error("Error generating TM from XML: invalid direction" );
}
}
if (from.size() && to.size() && read.size() && write.size() && (dir == L || dir == R))
TM->addTransition(from, to, read, write, dir, fromStorage, toStorage);
else
throw std::runtime_error("Error generating TM from XML: Incomplete transition");
}
}
}
}
for(TiXmlElement* elem = root->FirstChildElement(); elem != NULL; elem = elem->NextSiblingElement()) { //find alphabets and blank symbol
std::string elemName = elem->Value();
if (elemName == "StartState") {
std::string stateName = "";
std::vector<char> storage;
for(TiXmlElement* elemOfSS = elem->FirstChildElement(); elemOfSS != NULL; elemOfSS = elemOfSS->NextSiblingElement()) {
std::string elemOfSSName = elemOfSS->Value();
if (elemOfSSName == "name") {
if (elemOfSS->FirstChild() == NULL) {
continue;
}
TiXmlNode* e = elemOfSS->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
stateName = text->Value();
}
if (elemOfSSName == "storage") {
if (elemOfSS->FirstChild() == NULL) {
continue;
}
TiXmlNode* e = elemOfSS->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
for (auto i : t)
storage.push_back(i);
}
}
if (stateName.size() != 0) {
if (storage.size() == 0)
TM->indicateStartState(stateName);
else
TM->indicateStartState(stateName, storage);
}
else
throw std::runtime_error("Error generating TM from XML: No name for start state specified");
}
if (elemName == "AcceptingStates") {
for(TiXmlElement* elemOfAccepting = elem->FirstChildElement(); elemOfAccepting != NULL; elemOfAccepting = elemOfAccepting->NextSiblingElement()) {
std::string elemOfAcceptingName = elemOfAccepting->Value();
if (elemOfAcceptingName == "state") {
std::string stateName = "";
std::vector<char> storage;
for(TiXmlElement* elemOfAccState = elemOfAccepting->FirstChildElement(); elemOfAccState != NULL; elemOfAccState = elemOfAccState->NextSiblingElement()) {
std::string elemOfAccStateName = elemOfAccState->Value();
if (elemOfAccStateName == "name") {
if (elemOfAccState->FirstChild() == NULL) {
continue;
}
TiXmlNode* e = elemOfAccState->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
stateName = text->Value();
}
if (elemOfAccStateName == "storage") {
if (elemOfAccState->FirstChild() == NULL) {
continue;
}
TiXmlNode* e = elemOfAccState->FirstChild();
TiXmlText* text = e->ToText();
if(text == NULL)
continue;
std::string t = text->Value();
for (auto i : t)
storage.push_back(i);
}
}
if (stateName.size() != 0) {
if (storage.size() == 0)
TM->indicateAcceptingState(stateName);
else
TM->indicateAcceptingState(stateName, storage);
}
else
throw std::runtime_error("Error generating TM from XML: No name for accepting state specified");
}
}
}
}
return TM;
}
void COptions::Init()
{
if (m_bInitialized)
return;
simple_lock lock(m_mutex);
m_bInitialized = TRUE;
for (int i = 0; i < OPTIONS_NUM; ++i)
m_sOptionsCache[i].bCached = FALSE;
USES_CONVERSION;
CStdString xmlFileName = GetExecutableDirectory() + _T("FileZilla Server.xml");
char* bufferA = T2A(xmlFileName);
if (!bufferA) {
return;
}
TiXmlDocument document;
WIN32_FILE_ATTRIBUTE_DATA status{};
if (!GetStatus64(xmlFileName, status) ) {
document.LinkEndChild(new TiXmlElement("FileZillaServer"));
document.SaveFile(bufferA);
}
else if (status.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) {
return;
}
if (!document.LoadFile(bufferA)) {
return;
}
TiXmlElement* pRoot = document.FirstChildElement("FileZillaServer");
if (!pRoot) {
return;
}
TiXmlElement* pSettings = pRoot->FirstChildElement("Settings");
if (!pSettings)
pSettings = pRoot->LinkEndChild(new TiXmlElement("Settings"))->ToElement();
TiXmlElement* pItem;
for (pItem = pSettings->FirstChildElement("Item"); pItem; pItem = pItem->NextSiblingElement("Item")) {
const char* pName = pItem->Attribute("name");
if (!pName)
continue;
CStdString name(pName);
const char* pType = pItem->Attribute("type");
if (!pType)
continue;
CStdString type(pType);
TiXmlNode* textNode = pItem->FirstChild();
CStdString value;
if (textNode && textNode->ToText())
value = ConvFromNetwork(textNode->Value());
else if (type == _T("numeric"))
continue;
for (int i = 0; i < OPTIONS_NUM; ++i) {
if (!_tcscmp(name, m_Options[i].name)) {
if (m_sOptionsCache[i].bCached)
break;
if (type == _T("numeric")) {
if (m_Options[i].nType != 1)
break;
_int64 value64 = _ttoi64(value);
if (IsNumeric(value))
SetOption(i + 1, value64, false);
}
else {
if (m_Options[i].nType != 0)
break;
SetOption(i + 1, value, false);
}
break;
}
}
}
ReadSpeedLimits(pSettings);
UpdateInstances();
}
void CKSXML_Read_Project::Read_Take_Object(TiXmlElement* pElement, CTake_Data* pTake_Data)
{
if ( !pElement ) return ;
// get take uuid
TiXmlAttribute* pAttrib = pElement->FirstAttribute();
if(pAttrib)
pTake_Data->Set_UUID(pAttrib->Value());
TiXmlNode* pChild;
std::string s;
for ( pChild = pElement->FirstChild(); pChild != 0; pChild = pChild->NextSibling()) {
if(pChild->Type() == TiXmlNode::ELEMENT){
s = "";
if (stricmp("description", pChild->Value()) == 0) {
TiXmlNode* pTake_Description = pChild->FirstChild();
if(pTake_Description) {
TiXmlText* pText = pTake_Description->ToText();
if(pText){
s = pText->Value();
pTake_Data->Set_Description(s);
}
}
}
else if (stricmp("mode", pChild->Value()) == 0) {
TiXmlNode* pTake_Mode = pChild->FirstChild();
if(pTake_Mode) {
TiXmlText* pText = pTake_Mode->ToText();
if(pText){
s = pText->Value();
pTake_Data->Mode(s);
}
}
}
else if (stricmp("url", pChild->Value()) == 0) {
TiXmlNode* pUrl = pChild->FirstChild();
if(pUrl) {
TiXmlText* pText = pUrl->ToText();
if(pText){
s = pText->Value();
pTake_Data->URL(s);
}
}
}
else if (stricmp("mp3", pChild->Value()) == 0) {
TiXmlNode* pMp3_Url = pChild->FirstChild();
if(pMp3_Url) {
TiXmlText* pText = pMp3_Url->ToText();
if(pText){
s = pText->Value();
pTake_Data->MP3_URL(s);
}
}
}
}
}
}