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tdewebdev/quanta/parsers/parser.cpp

1758 lines
56 KiB

/***************************************************************************
parser.cpp - description
-------------------
begin : Sun Sep 1 2002
copyright : (C) 2002, 2003 by Andras Mantia <amantia@kde.org>
***************************************************************************/
/***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU General Public License as published by *
* the Free Software Foundation; version 2 of the License. *
* *
***************************************************************************/
//qt includes
#include <tqeventloop.h>
#include <tqstring.h>
#include <tqpoint.h>
#include <tqregexp.h>
#include <tqcstring.h>
#include <tqstringlist.h>
#include <tqstrlist.h>
#include <tqdatetime.h>
#include <tqfile.h>
#include <tqtextcodec.h>
#include <tqvaluelist.h>
#include <tqvaluestack.h>
//standard library includes
#include <stdio.h>
#include <ctype.h>
//#include <iostream.h>
//app includes
#include "parser.h"
#include "saparser.h"
#include "parsercommon.h"
#include "node.h"
#include "tag.h"
#include "resource.h"
#include "quantaview.h"
#include "quantacommon.h"
#include "document.h"
#include "qextfileinfo.h"
#include "kafkacommon.h"
#include "undoredo.h"
#include "dtds.h"
#include "structtreetag.h"
#include "viewmanager.h"
//kde includes
#include <kapplication.h>
#include <kdebug.h>
#include <kdirwatch.h>
#include <kiconloader.h>
#include <klocale.h>
#include <ktexteditor/document.h>
#include <ktexteditor/editinterface.h>
#include <ktexteditor/encodinginterface.h>
#include <ktexteditor/viewcursorinterface.h>
extern GroupElementMapList globalGroupMap;
static const TQChar space(' ');
extern int NN;
extern TQMap<Node*, int> nodes;
Parser::Parser()
{
m_node = 0L;
write = 0L;
oldMaxLines = 0;
m_parsingEnabled = true;
m_parsingNeeded = true;
m_parseIncludedFiles = true;
m_saParser = new SAParser();
connect(m_saParser, TQT_SIGNAL(rebuildStructureTree(bool)), TQT_SIGNAL(rebuildStructureTree(bool)));
connect(m_saParser, TQT_SIGNAL(cleanGroups()), TQT_SLOT(cleanGroups()));
ParserCommon::includeWatch = new KDirWatch();
connect(ParserCommon::includeWatch, TQT_SIGNAL(dirty(const TQString&)), TQT_SLOT(slotIncludedFileChanged(const TQString&)));
}
Parser::~Parser()
{
delete m_saParser;
}
/** Parse a string, using as start position sLine, sCol. */
Node *Parser::parseArea(int startLine, int startCol, int endLine, int endCol, Node **lastNode, Node *a_node)
{
//first parse as an XML document
TQString textLine;
textLine.fill(space, startCol);
int line = startLine;
int col = 0;
int tagStartLine = 0;
int tagEndLine, tagEndCol;
int tagStartPos, specialStartPos;
int lastLineLength;
// if (endCol == 0)
if (endLine > maxLines)
{
if (endLine > 0)
endLine--;
lastLineLength = write->editIf->lineLength(endLine) - 1;
endCol = lastLineLength + 1;
} else
lastLineLength = write->editIf->lineLength(endLine) - 1;
int specialAreaCount = m_dtd->specialAreas.count();
bool nodeFound = false;
bool goUp;
Node *rootNode = 0L;
Node *tqparentNode = a_node;
Node *currentNode = a_node;
if (currentNode && (currentNode->tag->type != Tag::XmlTag ||
currentNode->tag->single))
tqparentNode = currentNode->tqparent;
Tag *tag = 0L;
TQTag *qTag = 0L;
textLine.append(write->text(startLine, startCol, startLine, write->editIf->lineLength(startLine)));
if (line == endLine)
{
if (endCol > 0)
textLine.truncate(endCol + 1);
else
textLine = "";
}
if (m_dtd->family == Xml)
{
while (line <= endLine)
{
nodeFound = false;
goUp = false;
//find the first "<" and the first special area start definition in this line
tagStartPos = textLine.tqfind('<', col);
specialStartPos = specialAreaCount ? textLine.tqfind(m_dtd->specialAreaStartRx, col): -1;
//if the special area start definition is before the first "<" it means
//that we have found a special area
if ( specialStartPos != -1 &&
(specialStartPos <= tagStartPos || tagStartPos == -1) )
{
currentNode = ParserCommon::createTextNode(write, currentNode, line, specialStartPos, tqparentNode);
if (!rootNode)
rootNode = currentNode;
TQString foundText = m_dtd->specialAreaStartRx.cap();
//create a toplevel node for the special area
AreaStruct area(line, specialStartPos, line, specialStartPos + foundText.length() - 1);
Node *node = ParserCommon::createScriptTagNode(write, area, foundText, m_dtd, tqparentNode, currentNode);
if (node->tqparent && node->prev == node->tqparent) //some strange cases, but it's possible, eg.: <a href="<? foo ?>""></a><input size="<? foo ?>" >
{
node->prev->next = 0L;
node->prev = 0L;
}
if (node->tag->name.lower().startsWith("comment"))
node->tag->type = Tag::Comment;
if (!rootNode)
rootNode = node;
area.eLine = endLine;
area.eCol = endCol;
currentNode = m_saParser->parseArea(area, foundText, "", node, false, true);
line = m_saParser->lastParsedLine();
textLine = ParserCommon::getLine(write, line, endLine, endCol);
col = m_saParser->lastParsedColumn() + 1;
continue;
} else
//if we have found an XML tag start ("<")
if ( tagStartPos != -1 /*&&
(tagStartPos < specialStartPos || specialStartPos == -1) */)
{
int openNum = 1;
tagStartLine = line;
tagEndLine = endLine;
tagEndCol = lastLineLength;
int sCol = tagStartPos + 1;
int firstStartCol = lastLineLength + 1;
int firstStartLine = endLine;
bool firstOpenFound = false;
bool insideSingleQuotes = false;
bool insideDoubleQuotes = false;
//find the matching ">" in the document
while (line <= endLine && openNum > 0 && !firstOpenFound)
{
textLine = ParserCommon::getLine(write, line, endLine, endCol);
uint textLineLen = textLine.length();
for (uint i = sCol; i < textLineLen; i++)
{
if (i == 0 || (i > 0 && textLine[i-1] != '\\'))
{
if (textLine[i] == '\'' && !insideDoubleQuotes)
insideSingleQuotes = !insideSingleQuotes;
if (textLine[i] == '"' && !insideSingleQuotes)
insideDoubleQuotes = !insideDoubleQuotes;
}
if (!insideSingleQuotes && !insideDoubleQuotes)
{
if (textLine[i] == '<')
{
openNum++;
if (!firstOpenFound &&
(i < textLineLen -1 && (textLine[i + 1] == '/' || textLine[i + 1].isLetter()) ||
i == textLineLen -1)
)
{
firstStartCol = i;
firstStartLine = line;
firstOpenFound = true;
break;
}
} else
if (textLine[i] == '>') openNum--;
}
if (openNum == 0)
{
tagEndCol = i;
tagEndLine = line;
break;
}
}
sCol = 0;
if (openNum != 0)
line++;
}
//the matching closing tag was not found
if (openNum != 0)
{
tagEndLine = firstStartLine;
tagEndCol = firstStartCol - 1;
if (tagEndCol < 0)
{
tagEndLine--;
if (tagEndLine < 0)
tagEndLine = 0;
tagEndCol = write->editIf->lineLength(tagEndLine);
}
line = tagEndLine;
textLine = ParserCommon::getLine(write, line, endLine, endCol);
}
col = tagEndCol;
nodeFound = true;
//build an xml tag node here
AreaStruct area(tagStartLine, tagStartPos, tagEndLine, tagEndCol);
tag = new Tag(area, write, m_dtd, true);
TQString tagStr = tag->tagStr();
tag->type = Tag::XmlTag;
tag->validXMLTag = (openNum == 0);
tag->single = QuantaCommon::isSingleTag(m_dtd->name, tag->name);
if (tag->isClosingTag())
{
tag->type = Tag::XmlTagEnd;
tag->single = true;
}
if (tagStr.right(2) == "/>" || tag->name.isEmpty())
{
tag->single = true;
if (tag->name.length() > 1 && tag->name.endsWith("/"))
tag->name.truncate(tag->name.length() - 1);
}
//the tag we found indicates the beginning of a special area, like <script type=... >
if (m_dtd->specialTags.tqcontains(tag->name.lower()) && !tag->single)
{
//TODO: handle goUp here
Node *node = new Node(tqparentNode);
nodeNum++;
node->tag = tag;
node->insideSpecial = true;
if (currentNode && currentNode != tqparentNode)
{
currentNode->next = node;
node->prev = currentNode;
} else
{
if (tqparentNode)
tqparentNode->child = node;
}
if (!rootNode)
rootNode = node;
//find the DTD that needs to be used for the special area
TQString tmpStr = m_dtd->specialTags[tag->name.lower()];
int defPos = tmpStr.tqfind('[');
TQString defValue;
if (defPos != 0)
{
defValue = tmpStr.mid(defPos+1, tmpStr.tqfindRev(']')-defPos-1).stripWhiteSpace();
tmpStr = tmpStr.left(defPos);
}
TQString s = tag->attributeValue(tmpStr);
if (s.isEmpty())
s = defValue;
const DTDStruct *dtd = DTDs::ref()->tqfind(s);
if (!dtd)
dtd = m_dtd;
//a trick here: replace the node's DTD with this one //Note: with the new SAParser, the top level nodes must be Tag::ScriptTag-s!
// const DTDStruct *savedDTD = node->tag->dtd;
node->tag->setDtd(dtd);
node->tag->type = Tag::ScriptTag;
//now parse the special area
area.bLine = area.eLine;
area.bCol = area.eCol + 1;
area.eLine = endLine;
area.eCol = endCol;
currentNode = m_saParser->parseArea(area, "", "</"+tag->name+"\\s*>", node, false, true);
//restore & set the new variables
// node->tag->dtd = savedDTD;
line = m_saParser->lastParsedLine();
textLine = ParserCommon::getLine(write, line, endLine, endCol);
col = m_saParser->lastParsedColumn();
continue;
}
qTag = 0L;
goUp = ( tqparentNode &&
( (tag->type == Tag::XmlTagEnd && QuantaCommon::closesTag(tqparentNode->tag, tag)
) ||
tqparentNode->tag->single )
);
if (tqparentNode && !goUp)
{
qTag = QuantaCommon::tagFromDTD(m_dtd, tqparentNode->tag->name);
if ( qTag )
{
TQString searchFor = (m_dtd->caseSensitive)?tag->name:tag->name.upper();
searchFor.remove('/');
if ( qTag->stoppingTags.tqcontains(searchFor))
{
tqparentNode->tag->closingMissing = true; //tqparent is single...
goUp = true;
}
}
}
}
col++;
if (nodeFound)
{
//first create a text/empty node between the current position and the last node
Node *savedParentNode = tqparentNode;
currentNode = ParserCommon::createTextNode(write, currentNode, tagStartLine, tagStartPos, tqparentNode);
if (savedParentNode != tqparentNode)
goUp = false;
if (!rootNode)
rootNode = currentNode;
Node *node = 0L;
if (goUp)
{
//handle cases like <ul><li></ul>
if (tag->type == Tag::XmlTagEnd && !QuantaCommon::closesTag(tqparentNode->tag, tag))
{
while ( tqparentNode->tqparent &&
QuantaCommon::closesTag(tqparentNode->tqparent->tag, tag)
)
{
tqparentNode = tqparentNode->tqparent;
}
} else
if (qTag && tag->type != Tag::XmlTagEnd)
{
//handle the case when a tag is a stopping tag for tqparent, and grandtqparent and so on.
Node *n = tqparentNode;
TQString searchFor = (m_dtd->caseSensitive)?tag->name:tag->name.upper();
while (qTag && n)
{
qTag = QuantaCommon::tagFromDTD(m_dtd, n->tag->name);
if ( qTag )
{
if ( qTag->stoppingTags.tqcontains(searchFor) )
{
n->tag->closingMissing = true; //tqparent is single...
if (n->tqparent)
tqparentNode = n;
n = n->tqparent;
} else
{
break;
}
}
}
}
node = new Node(tqparentNode->tqparent);
nodeNum++;
node->prev = tqparentNode;
tqparentNode->next = node;
tqparentNode = tqparentNode->tqparent;
node->closesPrevious = true;
} else
{
node = new Node(tqparentNode);
nodeNum++;
if (currentNode && currentNode != tqparentNode)
{
currentNode->next = node;
node->prev = currentNode;
} else
{
if (tqparentNode)
{
if (!tqparentNode->child)
tqparentNode->child = node;
else
{
Node *n = tqparentNode->child;
while (n->next)
n = n->next;
n->next = node;
node->prev = n;
}
}
}
}
if (!tag->single)
tqparentNode = node;
node->tag = tag;
if (tag->type == Tag::NeedsParsing)
{
if (tag->name.lower().startsWith("comment"))
{
#ifdef DEBUG_PARSER
kdDebug(24000) << "COMMENT!" << endl;
#endif
node->tag->type = Tag::Comment;
}
}
else if (tag->type == Tag::XmlTag)
{
parseForXMLGroup(node);
//search for scripts inside the XML tag
parseScriptInsideTag(node);
}
currentNode = node;
if (!rootNode)
rootNode = node;
} else
{
line++;
col = 0;
textLine = ParserCommon::getLine(write, line, endLine, endCol);
//kdDebug(24000) << "Line " << line << endl;
}
}
}
int el = 0;
int ec = -1;
if (currentNode)
{
currentNode->tag->endPos(el, ec);
}
if (m_dtd->family == Script)
{
if (ec == -1)
ec = 0;
AreaStruct area(el, ec, endLine, endCol);
#ifdef DEBUG_PARSER
// kdDebug(24000) << "Calling cleanGroups from Parser::parseArea" << endl;
#endif
cleanGroups();
m_saParser->setParsingEnabled(true);
currentNode = m_saParser->parseArea(area, "", "", tqparentNode, true, true); //TODO: don't parse in detail here
m_saParser->setParsingEnabled(false);
el = m_saParser->lastParsedLine();
ec = m_saParser->lastParsedColumn();
} else
if (endLine == maxLines && endCol == write->editIf->lineLength(maxLines) - 1)
{
//create a text node from the last tag until the end of file
if (el == endLine && ec == endCol)
{
el = endLine + 1;
ec = 0;
} else
{
el = endLine;
ec = endCol + 1;
}
currentNode = ParserCommon::createTextNode(write, currentNode, el, ec, tqparentNode);
} else
if (el != endLine || ec != endCol)
{
if (currentNode && currentNode->tag->type == Tag::ScriptTag)
{
tqparentNode = currentNode;
currentNode = 0L;
}
currentNode = ParserCommon::createTextNode(write, currentNode, endLine, endCol, tqparentNode);
}
if (!rootNode)
rootNode = currentNode;
*lastNode = currentNode;
return rootNode;
}
/** Parse the whole text from Document w and build the internal structure tree
from Nodes */
Node *Parser::parse(Document *w, bool force)
{
TQTime t;
t.start();
QuantaView *view = ViewManager::ref()->activeView();
//If VPL is loaded, there shouldn't be any rebuild
if(view && view->hadLastFocus() == QuantaView::VPLFocus && !force)
return m_node;
if(!m_parsingEnabled && !force)
return baseNode;
bool saParserEnabled = m_saParser->parsingEnabled();
m_saParser->setParsingEnabled(false);
m_saParser->init(0L, w);
// clearGroups();
if (baseNode)
{
kdDebug(24000) << "Node objects before delete = " << NN << " ; list count = " << nodes.count() << endl;
//kdDebug(24000) << "baseNode before delete = " << baseNode << endl;
//ParserCommon::coutTree(m_node, 2);
Node::deleteNode(baseNode);
baseNode = 0L;
kdDebug(24000) << "Node objects after delete = " << NN << " ; list count = " << nodes.count() << endl;
/* TQMap<Node*, int> nList = nodes;
for (TQValueList<Node*>::ConstIterator it = nList.constBegin(); it != nList.constEnd(); ++it)
Node::deleteNode(*it);
kdDebug(24000) << "Node objects after cleanup = " << NN << " ; list count = " << nodes.count() << endl; */
}
m_node = 0L;
Node *lastNode;
write = w;
m_dtd = w->defaultDTD();
w->resetDTEPs();
maxLines = w->editIf->numLines() - 1;
parsingEnabled = true;
nodeNum = 0;
if (maxLines >= 0)
m_node = parseArea(0, 0, maxLines, w->editIf->lineLength(maxLines) - 1, &lastNode);
kdDebug(24000) << "Parsing time ("<< maxLines << " lines): " << t.elapsed() << " ms\n";
if (!m_node)
{
m_node = ParserCommon::createTextNode(w, 0L, maxLines, w->editIf->lineLength(maxLines), 0L);
}
m_parsingNeeded = false;
// treeSize = 0;
// kdDebug(24000) << "Basenode : " << m_node << endl;
// ParserCommon::coutTree(m_node, 2);
// kdDebug(24000) << "Size of tree: " << treeSize << endl;
//FIXME: What is the use of two pointer to the same Node???
baseNode = m_node;
kdDebug(24000) << "NN after parse = " << NN << "baseNode : " << baseNode << endl;
m_saParser->init(m_node, w);
//We need to reload Kafka to refresh the DOM::Node->Node links.
//FIXME: make a function which only update the DOM::Node->Node links.
if (view)
view->reloadVPLView(true);
emit nodeTreeChanged();
if (saParserEnabled)
TQTimer::singleShot(0, this, TQT_SLOT(slotParseInDetail()));
return m_node;
}
/** No descriptions */
const DTDStruct * Parser::currentDTD(int line, int col)
{
const DTDStruct *dtd = m_dtd;
Node *node = nodeAt(line, col, false, true);
if (node)
{
dtd = node->tag->dtd();
}
return dtd;
}
/** Returns the node for position (line, column). As more than one node can
contain the same area, it return the "deepest" node. */
Node *Parser::nodeAt(int line, int col, bool findDeepest, bool exact)
{
if (!write)
return 0L;
if (!baseNode)
baseNode = parse(write, true); //FIXME: this most likely hides a bug: new documents are not parsed
Node *node = m_node;
int bl, bc, el, ec;
int result;
while (node)
{
node->tag->beginPos(bl, bc);
bc++;
Node *n = node->nextNotChild();
if (n && n->tag)
{
n->tag->beginPos(el, ec);
} else
{
el = write->editIf->numLines();
ec = 0;
}
result = QuantaCommon::isBetween(line, col, bl, bc, el, ec);
if ( result == 0)
{
if (node->child)
{
node = node->child;
} else
{
if (node->tqparent)
{
int tqparentEl, tqparentEc;
node->tqparent->tag->endPos(tqparentEl, tqparentEc);
if (!exact && QuantaCommon::isBetween(line, col, bl, bc, tqparentEl, tqparentEc) == 0)
{
node = node->tqparent;
}
}
break; //we found the node
}
} else
if (result == -1)
{
if (node->tqparent)
node = node->tqparent;
break; //we found the node
} else
{
node = node->next;
}
}
bc = ec = el = bl = 0;
if (node)
{
node->tag->beginPos(bl, bc);
node->tag->endPos(el, ec);
}
if (node && node->tag->type == Tag::Empty &&
(findDeepest || (bl == el && ec < bc)) )
{
if (node->tqparent)
{
node = node->tqparent;
} else
if (node->prev)
{
node = node->prev;
}
} else
if (node && (el < line || (el == line && ec + 1 < col)))
{
Node *n = node->nextSibling();
if (n /*&& n->nextSibling()*/) //don't set it to the last, always empty node
node = n;
}
return node;
}
void Parser::logReparse(NodeModifsSet *modifs, Document *w)
{
NodeModif *modif;
if (baseNode)
{
Node *n = baseNode;
while (n)
{
n->detachNode();
n = n->nextSibling();
}
modif = new NodeModif();
modif->setType(NodeModif::NodeTreeRemoved);
modif->setNode(baseNode);
modifs->addNodeModif(modif);
baseNode = 0L;
}
modif = new NodeModif();
modif->setType(NodeModif::NodeTreeAdded);
modifs->addNodeModif(modif);
w->docUndoRedo->addNewModifsSet(modifs, undoRedo::SourceModif);
}
bool Parser::invalidArea(Document *w, AreaStruct &area, Node **firstNode, Node **lastNode)
{
oldMaxLines = maxLines;
maxLines = w->editIf->numLines() - 1;
uint line, col;
w->viewCursorIf->cursorPositionReal(&line, &col);
Node *node = nodeAt(line, col, false);
int bl, bc, el, ec;
TQString text;
TQString tagStr;
area.bLine = area.bCol = 0;
area.eLine = maxLines;
area.eCol = w->editIf->lineLength(maxLines) - 1;
if (area.eCol < 0)
area.eCol = 0;
if (node)
node->tag->beginPos(area.bLine, area.bCol);
Node *startNode = node;
//find the first unchanged (non empty) node backwards and store it as firstNode
*firstNode = 0L;
while (node)
{
node->tag->beginPos(bl, bc);
node->tag->endPos(el, ec);
if (node->tag->type != Tag::Empty
&& !node->insideSpecial && node->tag->validXMLTag //TODO:remove when script reparsing is supported
)
{
text = w->text(bl, bc, el, ec);
tagStr = node->tag->tagStr();
if (tagStr == text)
{
*firstNode = node;
//firstNode might not be the first unchanged Node e.g. text Nodes
while (*firstNode)
{
if((*firstNode)->tag->type != Tag::Text)
break;
(*firstNode)->tag->endPos(el, ec);
text = w->text(el, ec + 1, el, ec + 1);
if (text == "<")
break;
else// a character has been added at the end of the text : this node is modified
*firstNode = (*firstNode)->previousSibling();
}
break;
} else
{
node = node->previousSibling(); //the tag content is different
}
} else
{
node = node->previousSibling(); //the tag is empty, ignore it
}
}
//find the first unchanged (non empty) node forward and store it as lastNode
//move the nodes if they were shifted
bool moveNodes = false; //do we need to move the nodes?
int lineDiff = maxLines - oldMaxLines; //lines are shifted with this amount
node = startNode;
*lastNode = 0L;
while (node)
{
node->tag->beginPos(bl, bc);
node->tag->endPos(el, ec);
if (!moveNodes)
{
if (node->tag->type != Tag::Empty
&& !node->insideSpecial && node->tag->validXMLTag //TODO:remove when script reparsing is supported
)
{
text = w->text(bl + lineDiff, bc, el + lineDiff, ec);
tagStr = node->tag->tagStr();
if (tagStr == text)
{
if (!(*lastNode))
*lastNode = node;
if (lineDiff != 0)
{
moveNodes = true;
node->tag->setTagPosition(bl + lineDiff, bc, el + lineDiff, ec);
} else
{
break; //lastNode found
}
}
}
} else
{
node->tag->setTagPosition(bl + lineDiff, bc, el + lineDiff, ec);
}
node = node->nextSibling();
}
if (*firstNode)
node = (*firstNode)->nextSibling(); //the first changed node
else
return false;
if (node)
node->tag->beginPos(area.bLine, area.bCol);
if (*lastNode)
{
(*lastNode)->tag->beginPos(area.eLine, area.eCol);
if (area.eCol > 0)
area.eCol--;
}
return true;
}
void Parser::deleteNodes(Node *firstNode, Node *lastNode, NodeModifsSet *modifs)
{
Node *nextNode, *child, *tqparent, *next, *prev;
int i, j;
Node *node = firstNode;
bool closesPrevious = false;
NodeModif *modif;
//delete all the nodes between the firstNode and lastNode
while (node && node != lastNode )
{
nextNode = node->nextSibling();
node->removeAll = false;
child = node->child;
tqparent = node->tqparent;
next = node->next;
prev = node->prev;
closesPrevious = node->closesPrevious;
if (nextNode && nextNode->prev == node)
{
nextNode->prev = prev;
}
if (nextNode && nextNode->tqparent == node)
{
nextNode->tqparent = tqparent;
}
if (next)
next->prev = prev;
if (prev && prev->next == node)
{
prev->next = next;
}
if (next && next->closesPrevious)
next->closesPrevious = false;
modif = new NodeModif();
modif->setType(NodeModif::NodeRemoved);
modif->setLocation(kafkaCommon::getLocation(node));
if (prev && prev->next == node)
prev->next = 0L;
if(tqparent && tqparent->child == node)
tqparent->child = 0L;
node->tqparent = 0L;
node->next = 0L;
node->prev = 0L;
//delete node;
node->detachNode();
modif->setNode(node);
node = 0L;
i = 0;
j = 0;
if (!closesPrevious)
{
//move the tqchildren up one level
Node *n = child;
Node *m = child;
while (n)
{
m = n;
n->tqparent = tqparent;
n = n->next;
i++;
}
//connect the first child to the tree (after prev, or as the first child of the tqparent)
if (prev && child)
{
prev->next = child;
child->prev = prev;
if (next) //the last child is just before the next
{
m->next = next;
next->prev = m;
}
} else
{
if (!child) //when there is no child, connect the next as the first child of the tqparent
child = next;
else
if (next)
{
n = child;
while (n->next)
n = n->next;
n->next = next;
next->prev = n;
}
if (tqparent && !tqparent->child)
{
tqparent->child = child;
}
}
} else
{
//change the tqparent of tqchildren, so the prev will be the new tqparent
if (child)
{
Node *n = child;
Node *m = child;
while (n)
{
m = n;
n->tqparent = prev;
n = n->next;
i++;
}
if (prev->child)
{
n = prev;
while (n->child)
{
n = n->child;
while (n->next)
n = n->next;
}
n->next = child;
child->prev = n;
} else
{
prev->child = child;
}
}
//move down the nodes starting with next one level and append to the list of tqchildren of prev
if (next)
{
if (prev->child) //if the previous node has a child, append the next node after the last child
{
Node *n = prev;
while (n->child)
{
n = n->child;
while (n->next)
n = n->next;
}
next->prev = n;
n->next = next;
} else // else append it as the first child of the previous
{
prev->child = next;
next->prev = 0L;
}
//all the nodes after the previous are going UNDER the previous, as the one closing node was deleted
//and the tree starting with next is moved under prev (see the above lines)
prev->next = 0L;
Node *n = next;
while (n)
{
n->tqparent = prev;
n = n->next;
j++;
}
}
}
modif->setChildrenMovedUp(i);
modif->setNeighboursMovedDown(j);
modifs->addNodeModif(modif);
node = nextNode;
// kdDebug(24000)<< "Node removed!" << endl;
// ParserCommon::coutTree(m_node, 2);
}
// ParserCommon::coutTree(m_node, 2);
}
Node *Parser::rebuild(Document *w)
{
kdDebug(24000) << "Rebuild started. " << endl;
TQTime t;
t.start();
bool saParserEnabled = m_saParser->parsingEnabled();
//If VPL is loaded, there shouldn't be any rebuild
if(ViewManager::ref()->activeView()->hadLastFocus() == QuantaView::VPLFocus)
return m_node;
NodeModifsSet *modifs = new NodeModifsSet();
NodeModif *modif;
// kdDebug(24000)<< "Node *Parser::rebuild()" << endl;
modifs->setIsModifiedAfter(w->isModified());
//**kdDebug(24000)<< "************* Begin User Modification *****************" << endl;
//debug!
//ParserCommon::coutTree(m_node, 2);//*/
if (w != write || !m_node) //the document has changed or the top node does not exists => parse completely
{
logReparse(modifs, w);
return parse(w);
} else
{
m_saParser->setParsingEnabled(false);
m_saParser->init(0L, w);
parsingEnabled = true;
TQString text;
TQString tagStr;
Node *firstNode = 0L;
Node *lastNode = 0L;
Node *node = 0L;
AreaStruct area(0, 0, 0, 0);
if ( !invalidArea(w, area, &firstNode, &lastNode) ||
(area.eLine < area.bLine || (area.eLine == area.bLine && area.eCol <= area.bCol)) //something strange has happened, like moving text with D&D inside the editor
)
{
logReparse(modifs, w);
m_saParser->setParsingEnabled(saParserEnabled);
Node *n = parse(w, true);
return n;
}
kdDebug(24000) << TQString("Invalid area: %1,%2,%3,%4").tqarg(area.bLine).tqarg(area.bCol).tqarg(area.eLine).tqarg(area.eCol) << "\n";
// kdDebug(24000) << "lastNode1: " << lastNode << " " << lastNode->tag << endl;
deleteNodes(firstNode->nextSibling(), lastNode, modifs);
// kdDebug(24000) << "lastNode2: " << lastNode << " " << lastNode->tag << endl;
firstNode->child = 0L;
Node *lastInserted = 0L;
//this makes sure that the first found node it put right after the firstNode
if (firstNode->next && firstNode->next == lastNode)
{
firstNode->next->prev = 0L;
firstNode->next = 0L;
}
node = parseArea(area.bLine, area.bCol, area.eLine, area.eCol, &lastInserted, firstNode);
Node *swapNode = firstNode->nextSibling();
Node *p = (lastInserted)?lastInserted->nextSibling():lastInserted;
while(swapNode != p)
{
modif = new NodeModif();
modif->setType(NodeModif::NodeAdded);
modif->setLocation(kafkaCommon::getLocation(swapNode));
modifs->addNodeModif(modif);
swapNode = swapNode->nextSibling();
}
//another stange case: the parsed area contains a special area without end
if (!node)
{
if (lastNode)
{
if (lastNode->prev )
lastNode->prev->next = 0L;
if (lastNode->tqparent && lastNode->tqparent->child == lastNode)
lastNode->tqparent->child = 0L;
}
Node::deleteNode(lastNode);
nodeNum--;
lastNode = 0L;
logReparse(modifs, w);
m_saParser->setParsingEnabled(saParserEnabled);
return parse(w);
}
// kdDebug(24000) << "lastNode3: " << lastNode << " " << lastNode->tag << endl;
bool goUp;
if (lastNode && lastInserted)
{
// kdDebug(24000) << "lastNode4: " << lastNode << " " << lastNode->tag << endl;
//merge the nodes if they are both of type Text or Empty
if ( (lastInserted->tag->type == Tag::Empty || lastInserted->tag->type == Tag::Text) &&
(lastNode->tag->type == Tag::Empty || lastNode->tag->type == Tag::Text))
{
if (lastNode->prev)
lastNode->prev->next = 0L;
lastNode->prev = lastInserted->prev;
if (lastInserted->prev)
lastInserted->prev->next = lastNode;
lastNode->tqparent = lastInserted->tqparent;
lastInserted->tag->beginPos(area.bLine, area.bCol);
lastNode->tag->endPos(area.eLine, area.eCol);
Tag *_tag = new Tag(*(lastNode->tag));
lastNode->tag->setTagPosition(area);
TQString s = write->text(area);
lastNode->tag->setStr(s);
if (!s.simplifyWhiteSpace().isEmpty())
{
lastNode->tag->type = Tag::Text;
} else
{
lastNode->tag->type = Tag::Empty;
}
if (lastInserted->tqparent && lastInserted->tqparent->child == lastInserted)
//lastInserted->tqparent->child = lastInserted->next; lastInserted has no next!
lastInserted->tqparent->child = lastNode;
//here, lastNode is at the pos of lastInserted.
modif = new NodeModif();
modif->setType(NodeModif::NodeRemoved);
modif->setLocation(kafkaCommon::getLocation(lastNode));
if(lastInserted->prev)
lastInserted->prev->next = 0L;
if(lastInserted->tqparent && lastInserted->tqparent->child == lastInserted)
lastInserted->tqparent->child = 0L;
lastInserted->prev = 0L;
lastInserted->next = 0L;
lastInserted->tqparent = 0L;
lastInserted->child = 0L;
// delete lastInserted;
lastInserted->detachNode();
modif->setNode(lastInserted);
modifs->addNodeModif(modif);
modif = new NodeModif();
modif->setType(NodeModif::NodeModified);
modif->setLocation(kafkaCommon::getLocation(lastNode));
modif->setTag(_tag);
modifs->addNodeModif(modif);
lastInserted = lastNode;
lastNode = lastNode->nextNotChild();
}
node = lastInserted;
// kdDebug(24000) << "lastNode5: " << lastNode << " " << lastNode->tag << endl;
TQTag *qTag = 0L;
while (node && lastNode)
{
// kdDebug(24000) << "lastNode6: " << lastNode << " " << lastNode->tag << endl;
qTag = 0L;
goUp = ( node->tqparent &&
( (lastNode->tag->type == Tag::XmlTagEnd && QuantaCommon::closesTag(node->tqparent->tag, lastNode->tag) ) ||
node->tqparent->tag->single )
);
if (node->tqparent && !goUp)
{
qTag = QuantaCommon::tagFromDTD(m_dtd, node->tqparent->tag->name);
if ( qTag )
{
TQString searchFor = (m_dtd->caseSensitive)?lastNode->tag->name:lastNode->tag->name.upper();
searchFor.remove('/');
if ( qTag->stoppingTags.tqcontains( searchFor ) )
{
node->tqparent->tag->closingMissing = true; //tqparent is single...
goUp = true;
}
}
}
if (goUp &&
( (m_dtd->caseSensitive && node->tag->name == node->tqparent->tag->name) ||
(!m_dtd->caseSensitive && node->tag->name.lower() == node->tqparent->tag->name.lower())) )
goUp = false; //it can happen that the tag closes the previous and not the tqparent
if (goUp) //lastnode closes the node->tqparent
{
//handle cases like <ul><li></ul>
if (lastNode->tag->type == Tag::XmlTagEnd &&
!QuantaCommon::closesTag(node->tqparent->tag, lastNode->tag))
{
while ( node->tqparent->tqparent &&
QuantaCommon::closesTag(node->tqparent->tqparent->tag, lastNode->tag)
)
{
node = node->tqparent;
}
} else
if (qTag && lastNode->tag->type != Tag::XmlTagEnd)
{
//handle the case when a tag is a stopping tag for tqparent, and grandtqparent and so on. I'm not sure it's needed here, but anyway...
Node *n = node->tqparent;
TQString searchFor = (m_dtd->caseSensitive) ? lastNode->tag->name : lastNode->tag->name.upper();
while (qTag && n)
{
qTag = QuantaCommon::tagFromDTD(m_dtd, n->tag->name);
if ( qTag )
{
if ( qTag->stoppingTags.tqcontains(searchFor) )
{
n->tag->closingMissing = true; //tqparent is single...
if (n->tqparent)
node = n;
n = n->tqparent;
} else
{
break;
}
}
}
}
if (lastNode->prev && lastNode->prev->next == lastNode)
lastNode->prev->next = 0L;
if (lastNode->tqparent && lastNode->tqparent->child == lastNode)
lastNode->tqparent->child = 0L;
if (node->tqparent)
node->tqparent->next = lastNode;
lastNode->prev = node->tqparent;
if (node->tqparent)
lastNode->tqparent = node->tqparent->tqparent;
else
lastNode->tqparent = 0L;
node->next = 0L;
lastNode->closesPrevious = true;
} else
{
if (lastNode->prev && lastNode->prev->next == lastNode)
lastNode->prev->next = 0L;
node->next = lastNode;
lastNode->prev = node;
lastNode->tqparent = node->tqparent;
// kdDebug(24000) << "lastNode7: " << lastNode << " " << lastNode->tag << endl;
}
node = lastNode;
lastNode = lastNode->nextNotChild();
//For some reason this can happen, the lastNode can point to an invalid place.
//To avoid crashes, forget the rebuild and do a full parse instead.
if (!nodes.tqcontains(lastNode))
{
kdDebug(24000) << "Lastnode is invalid, do a full reparse!" << endl;
logReparse(modifs, w);
m_saParser->setParsingEnabled(saParserEnabled);
Node *n = parse(w, true);
return n;
}
/* if (lastNode)
TQString s = lastNode->tag->tagStr();*/
}
}
/* kdDebug(24000)<< "END"<< endl;
ParserCommon::coutTree(baseNode, 2);
kdDebug(24000)<< "************* End User Modification *****************" << endl;*/
w->docUndoRedo->addNewModifsSet(modifs, undoRedo::SourceModif);
}
kdDebug(24000) << "Rebuild: " << t.elapsed() << " ms; baseNode=" << baseNode << "\n";
// ParserCommon::verifyTree(m_node);
/* treeSize = 0;
ParserCommon::coutTree(m_node, 2);
kdDebug(24000) << "Size of tree: " << treeSize << endl;*/
m_saParser->init(m_node, w);
if (saParserEnabled)
TQTimer::singleShot(0, this, TQT_SLOT(slotParseInDetail()));
emit nodeTreeChanged();
m_parsingNeeded = false;
return m_node;
}
void Parser::clearGroups()
{
#ifdef DEBUG_PARSER
// kdDebug(24000) << "clearGroups " << endl;
#endif
GroupElementMapList::Iterator it;
GroupElementList::Iterator elementIt;
GroupElementList *list;
int count = 0;
for (it = globalGroupMap.begin(); it != globalGroupMap.end(); ++it)
{
list = & it.data();
//Clear the group element list and also remove the group tag which
//was created in parseForXMLGroup/parseForScriptGroup methods.
elementIt = list->begin();
while (elementIt != list->end())
{
GroupElement *groupElement = (*elementIt);
#ifdef DEBUG_PARSER
kdDebug(24001) << "GroupElement deleted: " <<groupElement << " "<< groupElement->tag->area().bLine << " " << groupElement->tag->area().bCol << " "<< groupElement->tag->area().eLine << " "<< groupElement->tag->area().eCol << " " << groupElement->tag->tagStr() << " " << groupElement->type << endl;
#endif
//kdDebug(24000) << "usertagcount: " << groupElement->tag->write()->userTagList.count() << endl;
groupElement->tag->write()->userTagList.remove(groupElement->tag->name.lower());
if (!groupElement->deleted)
{
Node *n = groupElement->node;
n->m_groupElements.clear();
}
groupElement->group = 0L;
delete groupElement->tag;
groupElement->tag = 0L;
elementIt = list->erase(elementIt);
delete groupElement;
groupElement = 0L;
count++;
}
}
#ifdef DEBUG_PARSER
// kdDebug(24000) << count << " GroupElement deleted (clearGroups)." << endl;
#endif
globalGroupMap.clear();
clearIncludedGroupElements();
ParserCommon::includedFiles.clear();
ParserCommon::includedFilesDTD.clear();
delete ParserCommon::includeWatch;
ParserCommon::includeWatch = new KDirWatch();
connect(ParserCommon::includeWatch, TQT_SIGNAL(dirty(const TQString&)), TQT_SLOT(slotIncludedFileChanged(const TQString&)));
m_parseIncludedFiles = true;
}
void Parser::cleanGroups()
{
#ifdef DEBUG_PARSER
// kdDebug(24000) << "cleanGroups " << endl;
#endif
GroupElementMapList::Iterator it;
GroupElementList::Iterator elementIt;
GroupElementList *list;
int count = 0;
for (it = globalGroupMap.begin(); it != globalGroupMap.end(); ++it)
{
list = & it.data();
//Clear the group element list and also remove the group tag which
//was created in parseForXMLGroup/parseForScriptGroup methods.
elementIt = list->begin();
while (elementIt != list->end())
{
GroupElement *groupElement = (*elementIt);
if (groupElement->deleted)
{
#ifdef DEBUG_PARSER
kdDebug(24001) << "GroupElement deleted: " <<groupElement << " "<< groupElement->tag->area().bLine << " " << groupElement->tag->area().bCol << " "<< groupElement->tag->area().eLine << " "<< groupElement->tag->area().eCol << " " << groupElement->tag->tagStr() << " " << groupElement->type << endl;
#endif
groupElement->tag->write()->userTagList.remove(groupElement->tag->name.lower());
groupElement->group = 0L;
delete groupElement->tag;
groupElement->tag = 0L;
elementIt = list->erase(elementIt);
delete groupElement;
groupElement = 0L;
count++;
} else
{
++elementIt;
}
}
}
#ifdef DEBUG_PARSER
// kdDebug(24000) << count << " GroupElement deleted (cleanGroups)." << endl;
#endif
if (m_parseIncludedFiles)
{
delete ParserCommon::includeWatch;
ParserCommon::includeWatch = new KDirWatch();
connect(ParserCommon::includeWatch, TQT_SIGNAL(dirty(const TQString&)), TQT_SLOT(slotIncludedFileChanged(const TQString&)));
parseIncludedFiles();
}
}
void Parser::clearIncludedGroupElements()
{
uint listCount;
IncludedGroupElementsMap::Iterator includedMapIt;
for (includedMapIt = includedMap.begin(); includedMapIt != includedMap.end(); ++includedMapIt)
{
IncludedGroupElements::Iterator elementsIt;
for (elementsIt = includedMapIt.data().begin(); elementsIt != includedMapIt.data().end(); ++elementsIt)
{
GroupElementMapList::Iterator it;
for (it = elementsIt.data().begin(); it != elementsIt.data().end(); ++it)
{
listCount = it.data().count();
for (uint i = 0 ; i < listCount; i++)
{
GroupElement *groupElement = it.data()[i];
groupElement->node->tag->write()->userTagList.remove(groupElement->node->tag->name.lower());
Node::deleteNode(it.data()[i]->node);
delete it.data()[i];
}
}
}
}
includedMap.clear();
}
void Parser::parseIncludedFiles()
{
#ifdef DEBUG_PARSER
kdDebug(24000) << "parseIncludedFiles" << endl;
#endif
clearIncludedGroupElements();
uint listCount;
if (write->url().isLocalFile())
{
listCount = ParserCommon::includedFiles.count();
for (uint i = 0; i < listCount; i++)
{
parseIncludedFile(ParserCommon::includedFiles[i], ParserCommon::includedFilesDTD.at(i));
}
if (listCount > 0)
m_parseIncludedFiles = false;
}
emit rebuildStructureTree(true);
}
//structure used to temporary store the position of the groupelements in the searchFor
//included file as a string
struct GroupElementPosition{
GroupElement *element;
int startPos;
int endPos;
};
void Parser::parseIncludedFile(const TQString& fileName, const DTDStruct *dtd)
{
#ifdef DEBUG_PARSER
kdDebug(24000) << "parseIncludedFile: " << fileName << endl;
#endif
StructTreeGroup group;
TQString content;
TQFile file(fileName);
if (file.open(IO_ReadOnly))
{
IncludedGroupElements *elements = &includedMap[fileName];
TQTextStream str(&file);
TQString encoding;
KTextEditor::EncodingInterface* encodingIf = dynamic_cast<KTextEditor::EncodingInterface*>(write->doc());
if (encodingIf)
encoding = encodingIf->encoding();
if (encoding.isEmpty())
encoding = "utf8"; //final fallback
str.setCodec(TQTextCodec::codecForName(encoding.ascii()));
content = str.read();
file.close();
if (dtd->specialAreas.count())
{
int areaPos = 0;
int lastAreaPos = 0;
TQString foundStr;
TQString specialEndStr;
while (areaPos != -1)
{
areaPos = content.tqfind(dtd->specialAreaStartRx, lastAreaPos);
if (areaPos != -1)
{
foundStr = dtd->specialAreaStartRx.cap();
specialEndStr = dtd->specialAreas[foundStr];
int areaPos2 = content.tqfind(specialEndStr, areaPos);
if (areaPos2 == -1)
{
areaPos2 = content.length();
foundStr = content.mid(areaPos, areaPos2 - areaPos + 1);
areaPos = -1;
} else
{
foundStr = content.mid(areaPos, areaPos2 - areaPos + 1);
lastAreaPos = areaPos2 + 1;
}
QuantaCommon::removeCommentsAndQuotes(foundStr, dtd);
//gather the starting position of structures
TQValueList<uint> structPositions;
int structPos = 0;
while (structPos !=-1)
{
structPos = foundStr.tqfind(dtd->structBeginStr, structPos);
if (structPos != -1)
{
structPositions.append(structPos);
structPos += dtd->structBeginStr.length();
}
}
TQValueList<GroupElementPosition> gPositions;
//go through the list of found structures and search for groups
int structStartPosition = 0; //from where to start the group search. This is before the structure begin position
TQString savedStr = foundStr;
for (uint i = 0; i < structPositions.count(); i++)
{
foundStr = savedStr;
uint structBeginPos = structPositions[i];
structPos = structBeginPos;
int openNum = 1;
int pos = structPos + dtd->structBeginStr.length();
//find the corresponding structure closing string
while (openNum !=0 && pos != -1)
{
pos = dtd->structRx.search(foundStr, pos);
if (pos != -1)
{
if (dtd->structRx.cap() == dtd->structBeginStr)
openNum++;
else
openNum--;
pos++;
}
}
if (pos == -1)
pos = foundStr.length();
int structEndPos = pos;
foundStr = foundStr.left(pos);
TQString spaces;
spaces.fill(' ', pos - structPos + 1);
foundStr.tqreplace(structPos, pos - structPos + 1, spaces);
//FIXME: This code replaces the content between ( ) with
//empty spaces. This is quite PHP (or functions) //specific, and it's done in order to not find variables
//declared as function arguments. A generic way is needed
//to exclude unwanted areas.
int openBracketPos = foundStr.tqfindRev(dtd->structKeywordsRx, structPos);
openBracketPos = foundStr.tqfind('(', openBracketPos);
openNum = 1;
if (openBracketPos != -1)
{
openBracketPos++;
int closeBracketPos = openBracketPos;
while (closeBracketPos < structPos && openNum !=0)
{
if (foundStr[closeBracketPos] == '(')
openNum++;
if (foundStr[closeBracketPos] == ')')
openNum--;
closeBracketPos++;
}
closeBracketPos--;
spaces.fill(' ', closeBracketPos - openBracketPos);
foundStr.tqreplace(openBracketPos, closeBracketPos - openBracketPos, spaces);
}
//now check which groups are present in this area
structPos = pos + 1;
TQValueList<StructTreeGroup>::ConstIterator it;
for (it = dtd->structTreeGroups.begin(); it != dtd->structTreeGroups.end(); ++it)
{
group = *it;
if (!group.hasDefinitionRx)
continue;
int pos = structStartPosition;
while (pos != -1)
{
pos = group.definitionRx.search(foundStr, pos);
if (pos != -1)
{
int l;
TQString ss = group.definitionRx.cap();
if (group.definitionRx.pos(1) > pos)
{
pos = group.definitionRx.pos(1);
l = group.definitionRx.cap(1).length();
ss = group.definitionRx.cap(1);
}
else
{
l = group.definitionRx.cap().length();
}
TQString s = content.mid(areaPos + pos, l);
pos += l;
if (!(*elements)[group.name].tqcontains(s))
{
Tag *tag = new Tag();
tag->name = s;
tag->setDtd(dtd);
tag->setWrite(write);
TQString s2 = content.left(areaPos + pos);
int newLineNum = s2.tqcontains('\n');
int tmpCol = s2.length() - s2.tqfindRev('\n') - 1;
tag->setTagPosition(newLineNum, tmpCol - s.length(), newLineNum, tmpCol);
Node *node = new Node(0L);
node->tag = tag;
node->fileName = fileName;
GroupElement *groupElement = new GroupElement;
groupElement->node = node;
groupElement->tqparentNode = 0L;
int minPos = areaPos + pos + 1;
for (TQValueList<GroupElementPosition>::Iterator gPosIt = gPositions.begin(); gPosIt != gPositions.end(); ++gPosIt)
{
GroupElementPosition gPos = (*gPosIt);
if ( (areaPos + pos > gPos.startPos) && (areaPos + pos < gPos.endPos) && (gPos.startPos < minPos))
{
groupElement->tqparentNode = gPos.element->node;
minPos = gPos.startPos;
}
}
GroupElementList *groupElementList = &(*elements)[group.name][s];
groupElementList->append(groupElement);
GroupElementPosition gPos;
gPos.startPos = areaPos + pos;
gPos.endPos = structEndPos;
gPos.element = groupElement;
gPositions.append(gPos);
if (group.appendToTags)
{
TQTag *qTag = new TQTag();
qTag->setName(s.left(s.tqfind('(')));
qTag->className = "";
if (groupElement->tqparentNode)
qTag->className = groupElement->tqparentNode->tag->name;
write->userTagList.tqreplace(s.lower(), qTag);
}
}
}
}
} //for
structStartPosition = structBeginPos + 1;
}
} //if (areaPos != -1)
}// while (areaPos != -1)
}
}
}
void Parser::slotIncludedFileChanged(const TQString& fileName)
{
int pos = ParserCommon::includedFiles.tqfindIndex(fileName);
if (pos != -1)
{
const DTDStruct *dtd = ParserCommon::includedFilesDTD.at(pos);
if (dtd)
{
IncludedGroupElements::Iterator elementsIt;
for (elementsIt = includedMap[fileName].begin(); elementsIt != includedMap[fileName].end(); ++elementsIt)
{
GroupElementMapList::Iterator it;
for (it = elementsIt.data().begin(); it != elementsIt.data().end(); ++it)
{
uint listCount = it.data().count();
for (uint i = 0 ; i < listCount; i++)
{
Node::deleteNode(it.data()[i]->node);
delete it.data()[i];
}
}
}
includedMap[fileName].clear();
parseIncludedFile(fileName, dtd);
}
}
}
void Parser::parseForXMLGroup(Node *node)
{
xmlGroupIt = node->tag->dtd()->xmlStructTreeGroups.tqfind(node->tag->name.lower());
if (xmlGroupIt != node->tag->dtd()->xmlStructTreeGroups.end())
{
XMLStructGroup group = xmlGroupIt.data();
Tag *newTag = new Tag(*node->tag);
TQString title = "";
TQStringList::Iterator it;
for (it = group.attributes.begin(); it != group.attributes.end(); ++it)
{
if (newTag->hasAttribute(*it))
{
title.append(newTag->attributeValue(*it).left(100));
title.append(" | ");
}
}
title = title.left(title.length()-3);
title.remove('\n');
newTag->name = title;
GroupElement *groupElement = new GroupElement;
groupElement->deleted = false;
groupElement->tag = newTag;
groupElement->node = node;
groupElement->tqparentNode = 0L;
groupElement->global = true;
groupElement->group = const_cast<XMLStructGroup*>(&(xmlGroupIt.data()));
node->m_groupElements.append(groupElement);
GroupElementList* groupElementList = & (globalGroupMap[group.name + "|" + title]);
groupElementList->append(groupElement);
}
}
bool Parser::parseScriptInsideTag(Node *startNode)
{
bool found = false;
const DTDStruct *dtd = startNode->tag->dtd();
if (dtd->specialAreas.count())
{
TQString foundText;
TQString s;
TQString specialEndStr;
TQString text = startNode->tag->tagStr();
int pos = 0;
int col = startNode->tag->structBeginStr.length();
int bl, bc, el, ec;
int node_bl, node_bc, node_el, node_ec;
int n;
startNode->tag->beginPos(node_bl, node_bc);
startNode->tag->endPos(node_el, node_ec);
Node *currentNode = 0L;
while (pos != -1)
{
pos = text.tqfind(dtd->specialAreaStartRx, col);
if (pos != -1)
{
foundText = dtd->specialAreaStartRx.cap();
//Calculate the beginning coordinates
s = text.left(pos);
n = s.tqcontains('\n');
bl = node_bl + n;
if (n > 0)
{
bc = pos - s.tqfindRev('\n') - 1;
} else
{
bc = node_bc + pos;
}
//What is the closing string?
specialEndStr = dtd->specialAreas[foundText];
el = bl;
ec = bc + foundText.length() - 1;
AreaStruct area(bl, bc, el, ec);
currentNode = ParserCommon::createScriptTagNode(write, area, foundText, dtd, startNode, currentNode);
currentNode->specialInsideXml = true;
found = true;
AreaStruct area2(bl, bc, node_el, node_ec);
int lastLine, lastCol;
m_saParser->setSpecialInsideXml(true);
currentNode = m_saParser->parseArea(area2, foundText, "", currentNode, true, true);
m_saParser->setSpecialInsideXml(false);
lastLine = m_saParser->lastParsedLine();
lastCol = m_saParser->lastParsedColumn();
col = write->text(node_bl, node_bc, lastLine, lastCol).length();
int firstSpecialAttrIndex = startNode->tag->attributeIndexAtPos(bl, bc);
if (firstSpecialAttrIndex != -1)
{
int lastSpecialAttrIndex = startNode->tag->attributeIndexAtPos(lastLine, lastCol);
for (int i = firstSpecialAttrIndex; i <= lastSpecialAttrIndex; i++)
{
startNode->tag->setAttributeSpecial(i, true);
}
}
}
}
}
return found;
}
void Parser::slotParseInDetail()
{
m_saParser->parseInDetail(false);
}
void Parser::synchParseInDetail()
{
m_saParser->parseInDetail(true);
}
void Parser::setSAParserEnabled(bool enabled)
{
m_saParser->setParsingEnabled(enabled);
//kapp->processEvents(TQEventLoop::ExcludeUserInput | TQEventLoop::ExcludeSocketNotifiers); //this makes sure that the parsing is really disabled
}
#include "parser.moc"