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tdelibs/kate/part/katecodefoldinghelpers.cpp

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/* This file is part of the KDE libraries
Copyright (C) 2002 Joseph Wenninger <jowenn@kde.org>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License version 2 as published by the Free Software Foundation.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include "katecodefoldinghelpers.h"
#include "katecodefoldinghelpers.moc"
#include "katebuffer.h"
#include "katecursor.h"
#include <kdebug.h>
#include <tqstring.h>
#define JW_DEBUG 0
bool KateCodeFoldingTree::trueVal = true;
KateCodeFoldingNode::KateCodeFoldingNode() :
parentNode(0),
startLineRel(0),
endLineRel(0),
startCol(0),
endCol(0),
startLineValid(false),
endLineValid(false),
type(0),
visible(true),
deleteOpening(false),
deleteEnding(false)
{
}//the endline fields should be initialised to not valid
KateCodeFoldingNode::KateCodeFoldingNode(KateCodeFoldingNode *par, signed char typ, unsigned int sLRel):
parentNode(par),
startLineRel(sLRel),
endLineRel(10000),
startCol(0),
endCol(0),
startLineValid(true),
endLineValid(false),
type(typ),
visible(true),
deleteOpening(false),
deleteEnding(false)
{
}//the endline fields should be initialised to not valid
KateCodeFoldingNode::~KateCodeFoldingNode()
{
// delete all child nodes
clearChildren ();
}
bool KateCodeFoldingNode::getBegin(KateCodeFoldingTree *tree, KateTextCursor* begin) {
if (!startLineValid) return false;
unsigned int line=startLineRel;
for (KateCodeFoldingNode *n=parentNode;n;n=n->parentNode)
line+=n->startLineRel;
tree->m_buffer->codeFoldingColumnUpdate(line);
begin->setLine(line);
begin->setCol(startCol);
return true;
}
bool KateCodeFoldingNode::getEnd(KateCodeFoldingTree *tree, KateTextCursor *end) {
if (!endLineValid) return false;
unsigned int line=startLineRel+endLineRel;
for (KateCodeFoldingNode *n=parentNode;n;n=n->parentNode)
line+=n->startLineRel;
tree->m_buffer->codeFoldingColumnUpdate(line);
end->setLine(line);
end->setCol(endCol);
return true;
}
int KateCodeFoldingNode::cmpPos(KateCodeFoldingTree *tree, uint line,uint col) {
KateTextCursor cur(line,col);
KateTextCursor start,end;
kdDebug(13000)<<"KateCodeFoldingNode::cmpPos (1)"<<endl;
bool startValid=getBegin(tree, &start);
kdDebug(13000)<<"KateCodeFoldingNode::cmpPos (2)"<<endl;
bool endValid=getEnd(tree, &end);
kdDebug(13000)<<"KateCodeFoldingNode::cmpPos (3)"<<endl;
if ((!endValid) && startValid) {
return ((start>cur)?-1:0);
}
if ((!startValid) && endValid) {
return ((cur>end)?1:0);
}
//here both have to be valid, both invalid must not happen
Q_ASSERT(startValid && endValid);
return ( (cur<start)?(-1):( (cur>end) ? 1:0));
}
void KateCodeFoldingNode::insertChild (uint index, KateCodeFoldingNode *node)
{
uint s = m_children.size ();
if (index > s)
return;
m_children.resize (++s);
for (uint i=s-1; i > index; --i)
m_children[i] = m_children[i-1];
m_children[index] = node;
}
KateCodeFoldingNode *KateCodeFoldingNode::takeChild (uint index)
{
uint s = m_children.size ();
if (index >= s)
return 0;
KateCodeFoldingNode *n = m_children[index];
for (uint i=index; (i+1) < s; ++i)
m_children[i] = m_children[i+1];
m_children.resize (s-1);
return n;
}
void KateCodeFoldingNode::clearChildren ()
{
for (uint i=0; i < m_children.size(); ++i)
delete m_children[i];
m_children.resize (0);
}
KateCodeFoldingTree::KateCodeFoldingTree(KateBuffer *buffer): TQObject(buffer), m_buffer (buffer)
{
clear();
}
void KateCodeFoldingTree::fixRoot(int endLRel)
{
m_root.endLineRel = endLRel;
}
void KateCodeFoldingTree::clear()
{
m_root.clearChildren();
// initialize the root "special" node
m_root.startLineValid=true;
m_root.endLineValid=true; // temporary, should be false;
m_root.endLineRel=1; // temporary;
hiddenLinesCountCacheValid=false;
lineMapping.setAutoDelete(true);
hiddenLines.clear();
lineMapping.clear();
nodesForLine.clear();
markedForDeleting.clear();
dontIgnoreUnchangedLines.clear();
}
KateCodeFoldingTree::~KateCodeFoldingTree()
{
}
bool KateCodeFoldingTree::isTopLevel(unsigned int line)
{
if (m_root.noChildren())
return true; // no childs
// look if a given lines belongs to a sub node
for ( uint i=0; i < m_root.childCount(); ++i )
{
KateCodeFoldingNode *node = m_root.child(i);
if ((node->startLineRel<=line) && (line<=node->startLineRel+node->endLineRel))
return false; // the line is within the range of a subnode -> return toplevel=false
}
return true; // the root node is the only node containing the given line, return toplevel=true
}
void KateCodeFoldingTree::getLineInfo(KateLineInfo *info, unsigned int line)
{
// Initialze the returned structure, this will also be returned if the root node has no child nodes
// or the line is not within a childnode's range.
info->topLevel = true;
info->startsVisibleBlock = false;
info->startsInVisibleBlock = false;
info->endsBlock = false;
info->invalidBlockEnd = false;
if (m_root.noChildren())
return;
//let's look for some information
for ( uint i=0; i < m_root.childCount(); ++i )
{
KateCodeFoldingNode *node = m_root.child(i);
if ((node->startLineRel<=line) && (line<=node->startLineRel+node->endLineRel)) // we found a node, which contains the given line -> do a complete lookup
{
info->topLevel = false; //we are definitly not toplevel
findAllNodesOpenedOrClosedAt(line); //lookup all nodes, which start or and at the given line
for ( KateCodeFoldingNode *node = nodesForLine.first(); node; node = nodesForLine.next() )
{
uint startLine = getStartLine(node);
// type<0 means, that a region has been closed, but not opened
// eg. parantheses missmatch
if (node->type < 0)
info->invalidBlockEnd=true;
else
{
if (startLine != line) // does the region we look at not start at the given line
info->endsBlock = true; // than it has to be an ending
else
{
// The line starts a new region, now determine, if it's a visible or a hidden region
if (node->visible)
info->startsVisibleBlock=true;
else
info->startsInVisibleBlock=true;
}
}
}
return;
}
}
return;
}
KateCodeFoldingNode *KateCodeFoldingTree::findNodeForLine(unsigned int line)
{
if (m_root.noChildren()) // does we have child list + nodes ?
return &m_root;
// lets look, if given line is within a subnode range, and then return the deepest one.
for ( uint i=0; i < m_root.childCount(); ++i )
{
KateCodeFoldingNode *node = m_root.child(i);
if ((node->startLineRel<=line) && (line<=node->startLineRel+node->endLineRel))
{
// a region surounds the line, look in the next deeper hierarchy step
return findNodeForLineDescending(node,line,0);
}
}
return &m_root;
}
KateCodeFoldingNode *KateCodeFoldingTree::findNodeForLineDescending ( KateCodeFoldingNode *node,
unsigned int line, unsigned int offset, bool oneStepOnly )
{
if (node->noChildren())
return node;
// calculate the offset, between a subnodes real start line and its relative start
offset += node->startLineRel;
for ( uint i=0; i < node->childCount(); ++i )
{
KateCodeFoldingNode *subNode = node->child(i);
if ((subNode->startLineRel+offset<=line) && (line<=subNode->endLineRel+subNode->startLineRel+offset)) //warning fix me for invalid ends
{
// a subnode contains the line.
// if oneStepOnly is true, we don't want to search for the deepest node, just return the found one
if (oneStepOnly)
return subNode;
else
return findNodeForLineDescending (subNode,line,offset); // look into the next deeper hierarchy step
}
}
return node; // the current node has no sub nodes, or the line couldn'te be found within a subregion
}
KateCodeFoldingNode *KateCodeFoldingTree::findNodeForPosition(unsigned int line, unsigned int column)
{
KateCodeFoldingNode *node=findNodeForLine(line);
if (node==&m_root) return &m_root;
kdDebug(13000)<<"initial cmpPos"<<endl;
KateCodeFoldingNode *tmp;
int leq=node->cmpPos(this, line,column);
while (true) {
switch (leq) {
case 0: {
if (node->noChildren())
return node;
else
{
tmp=node;
for ( uint i=0; i < node->childCount(); ++i )
{
KateCodeFoldingNode *subNode = node->child(i);
kdDebug(13000)<<"cmdPos(case0):calling"<<endl;
leq=subNode->cmpPos(this, line,column);
kdDebug(13000)<<"cmdPos(case0):returned"<<endl;
if (leq==0) {
tmp=subNode;
break;
} else if (leq==-1) break;
}
if (tmp!=node) node=tmp; else return node;
}
break;
}
//this could be optimized a littlebit
case -1:
case 1: {
if (!(node->parentNode)) return &m_root;
kdDebug(13000)<<"current node type"<<node->type<<endl;
node=node->parentNode;
kdDebug(13000)<<"cmdPos(case-1/1):calling:"<<node<<endl;
leq=node->cmpPos(this, line,column);
kdDebug(13000)<<"cmdPos(case-1/1):returned"<<endl;
break;
}
}
}
Q_ASSERT(false);
return &m_root;
}
void KateCodeFoldingTree::debugDump()
{
//dump all nodes for debugging
kdDebug(13000)<<"The parsed region/block tree for code folding"<<endl;
dumpNode(&m_root, "");
}
void KateCodeFoldingTree::dumpNode(KateCodeFoldingNode *node, const TQString &prefix)
{
//output node properties
kdDebug(13000)<<prefix<<TQString(TQString("Type: %1, startLineValid %2, startLineRel %3, endLineValid %4, endLineRel %5, visible %6").
arg(node->type).arg(node->startLineValid).arg(node->startLineRel).arg(node->endLineValid).
arg(node->endLineRel).arg(node->visible))<<endl;
//output child node properties recursive
if (node->noChildren())
return;
TQString newprefix(prefix + " ");
for ( uint i=0; i < node->childCount(); ++i )
dumpNode (node->child(i),newprefix);
}
/*
That's one of the most important functions ;)
*/
void KateCodeFoldingTree::updateLine(unsigned int line,
TQMemArray<uint> *regionChanges, bool *updated,bool changed,bool colsChanged)
{
if ( (!changed) || colsChanged)
{
if (dontIgnoreUnchangedLines.isEmpty())
return;
if (dontIgnoreUnchangedLines[line])
dontIgnoreUnchangedLines.remove(line);
else
return;
}
something_changed = false;
findAndMarkAllNodesforRemovalOpenedOrClosedAt(line);
if (regionChanges->isEmpty())
{
// KateCodeFoldingNode *node=findNodeForLine(line);
// if (node->type!=0)
// if (getStartLine(node)+node->endLineRel==line) removeEnding(node,line);
}
else
{
for (unsigned int i=0;i<regionChanges->size() / 4;i++)
{
signed char tmp=(*regionChanges)[regionChanges->size()-2-i*2];
uint tmppos=(*regionChanges)[regionChanges->size()-1-i*2];
(*regionChanges)[regionChanges->size()-2-i*2]=(*regionChanges)[i*2];
(*regionChanges)[regionChanges->size()-1-i*2]=(*regionChanges)[i*2+1];
(*regionChanges)[i*2]=tmp;
(*regionChanges)[i*2+1]=tmppos;
}
signed char data= (*regionChanges)[regionChanges->size()-2];
uint charPos=(*regionChanges)[regionChanges->size()-1];
regionChanges->resize (regionChanges->size()-2);
int insertPos=-1;
KateCodeFoldingNode *node = findNodeForLine(line);
if (data<0)
{
// if (insertPos==-1)
{
unsigned int tmpLine=line-getStartLine(node);
for ( uint i=0; i < node->childCount(); ++i )
{
if (node->child(i)->startLineRel >= tmpLine)
{
insertPos=i;
break;
}
}
}
}
else
{
for (; (node->parentNode) && (getStartLine(node->parentNode)==line) && (node->parentNode->type!=0); node=node->parentNode);
if ((getStartLine(node)==line) && (node->type!=0))
{
insertPos=node->parentNode->findChild(node);
node = node->parentNode;
}
else
{
for ( uint i=0; i < node->childCount(); ++i )
{
if (getStartLine(node->child(i))>=line)
{
insertPos=i;
break;
}
}
}
}
do
{
if (data<0)
{
if (correctEndings(data,node,line,charPos,insertPos))
{
insertPos=node->parentNode->findChild(node)+1;
node=node->parentNode;
}
else
{
if (insertPos!=-1) insertPos++;
}
}
else
{
int startLine=getStartLine(node);
if ((insertPos==-1) || (insertPos>=(int)node->childCount()))
{
KateCodeFoldingNode *newNode = new KateCodeFoldingNode (node,data,line-startLine);
something_changed = true;
node->appendChild(newNode);
addOpening(newNode, data, regionChanges, line,charPos);
insertPos = node->findChild(newNode)+1;
}
else
{
if (node->child(insertPos)->startLineRel == line-startLine)
{
addOpening(node->child(insertPos), data, regionChanges, line,charPos);
insertPos++;
}
else
{
// kdDebug(13000)<<"ADDING NODE "<<endl;
KateCodeFoldingNode *newNode = new KateCodeFoldingNode (node,data,line-startLine);
something_changed = true;
node->insertChild(insertPos, newNode);
addOpening(newNode, data, regionChanges, line,charPos);
insertPos++;
}
}
}
if (regionChanges->isEmpty())
data = 0;
else
{
data = (*regionChanges)[regionChanges->size()-2];
charPos=(*regionChanges)[regionChanges->size()-1];
regionChanges->resize (regionChanges->size()-2);
}
} while (data!=0);
}
cleanupUnneededNodes(line);
// if (something_changed) emit regionBeginEndAddedRemoved(line);
(*updated) = something_changed;
}
bool KateCodeFoldingTree::removeOpening(KateCodeFoldingNode *node,unsigned int line)
{
signed char type;
if ((type=node->type) == 0)
{
dontDeleteOpening(node);
dontDeleteEnding(node);
return false;
}
if (!node->visible)
{
toggleRegionVisibility(getStartLine(node));
}
KateCodeFoldingNode *parent = node->parentNode;
int mypos = parent->findChild(node);
if (mypos > -1)
{
//move childnodes() up
for(; node->childCount()>0 ;)
{
KateCodeFoldingNode *tmp;
parent->insertChild(mypos, tmp=node->takeChild(0));
tmp->parentNode = parent;
tmp->startLineRel += node->startLineRel;
mypos++;
}
// remove the node
//mypos = parent->findChild(node);
bool endLineValid = node->endLineValid;
int endLineRel = node->endLineRel;
uint endCol=node->endCol;
// removes + deletes
KateCodeFoldingNode *child = parent->takeChild(mypos);
markedForDeleting.removeRef(child);
delete child;
if ((type>0) && (endLineValid))
correctEndings(-type, parent, line+endLineRel/*+1*/,endCol, mypos); // why the hell did I add a +1 here ?
}
return true;
}
bool KateCodeFoldingTree::removeEnding(KateCodeFoldingNode *node,unsigned int /* line */)
{
KateCodeFoldingNode *parent = node->parentNode;
if (!parent)
return false;
if (node->type == 0)
return false;
if (node->type < 0)
{
// removes + deletes
int i = parent->findChild (node);
if (i >= 0)
{
KateCodeFoldingNode *child = parent->takeChild(i);
markedForDeleting.removeRef(child);
delete child;
}
return true;
}
int mypos = parent->findChild(node);
int count = parent->childCount();
for (int i=mypos+1; i<count; i++)
{
if (parent->child(i)->type == -node->type)
{
node->endLineValid = true;
node->endLineRel = parent->child(i)->startLineRel - node->startLineRel;
KateCodeFoldingNode *child = parent->takeChild(i);
markedForDeleting.removeRef(child);
delete child;
count = i-mypos-1;
if (count > 0)
{
for (int i=0; i<count; i++)
{
KateCodeFoldingNode *tmp = parent->takeChild(mypos+1);
tmp->startLineRel -= node->startLineRel;
tmp->parentNode = node; //should help 16.04.2002
node->appendChild(tmp);
}
}
return false;
}
}
if ( (parent->type == node->type) || /*temporary fix */ (!parent->parentNode))
{
for (int i=mypos+1; i<(int)parent->childCount(); i++)
{
KateCodeFoldingNode *tmp = parent->takeChild(mypos+1);
tmp->startLineRel -= node->startLineRel;
tmp->parentNode = node; // SHOULD HELP 16.04.2002
node->appendChild(tmp);
}
// this should fix the bug of wrongly closed nodes
if (!parent->parentNode)
node->endLineValid=false;
else
node->endLineValid = parent->endLineValid;
node->endLineRel = parent->endLineRel-node->startLineRel;
if (node->endLineValid)
return removeEnding(parent, getStartLine(parent)+parent->endLineRel);
return false;
}
node->endLineValid = false;
node->endLineRel = parent->endLineRel - node->startLineRel;
return false;
}
bool KateCodeFoldingTree::correctEndings(signed char data, KateCodeFoldingNode *node,unsigned int line,unsigned int endCol,int insertPos)
{
// if (node->type==0) {kdError()<<"correct Ending should never be called with the root node"<<endl; return true;}
uint startLine = getStartLine(node);
if (data != -node->type)
{
#if JW_DEBUG
kdDebug(13000)<<"data!=-node->type (correctEndings)"<<endl;
#endif
//invalid close -> add to unopend list
dontDeleteEnding(node);
if (data == node->type) {
node->endCol=endCol;
return false;
}
KateCodeFoldingNode *newNode = new KateCodeFoldingNode (node,data,line-startLine);
something_changed = true;
newNode->startLineValid = false;
newNode->endLineValid = true;
newNode->endLineRel = 0;
newNode->endCol=endCol;
if ((insertPos==-1) || (insertPos==(int)node->childCount()))
node->appendChild(newNode);
else
node->insertChild(insertPos,newNode);
// find correct position
return false;
}
else
{
something_changed = true;
dontDeleteEnding(node);
// valid closing region
if (!node->endLineValid)
{
node->endLineValid = true;
node->endLineRel = line - startLine;
node->endCol=endCol;
//moving
moveSubNodesUp(node);
}
else
{
#if JW_DEBUG
kdDebug(13000)<<"Closing a node which had already a valid end"<<endl;
#endif
// block has already an ending
if (startLine+node->endLineRel == line)
{
node->endCol=endCol;
// we won, just skip
#if JW_DEBUG
kdDebug(13000)<< "We won, just skipping (correctEndings)"<<endl;
#endif
}
else
{
int bakEndLine = node->endLineRel+startLine;
uint bakEndCol = node->endCol;
node->endLineRel = line-startLine;
node->endCol=endCol;
#if JW_DEBUG
kdDebug(13000)<< "reclosed node had childnodes()"<<endl;
kdDebug(13000)<<"It could be, that childnodes() need to be moved up"<<endl;
#endif
moveSubNodesUp(node);
if (node->parentNode)
{
correctEndings(data,node->parentNode,bakEndLine, bakEndCol,node->parentNode->findChild(node)+1); // ????
}
else
{
//add to unopened list (bakEndLine)
}
}
}
}
return true;
}
void KateCodeFoldingTree::moveSubNodesUp(KateCodeFoldingNode *node)
{
int mypos = node->parentNode->findChild(node);
int removepos=-1;
int count = node->childCount();
for (int i=0; i<count; i++)
if (node->child(i)->startLineRel >= node->endLineRel)
{
removepos=i;
break;
}
#if JW_DEBUG
kdDebug(13000)<<TQString("remove pos: %1").arg(removepos)<<endl;
#endif
if (removepos>-1)
{
#if JW_DEBUG
kdDebug(13000)<<"Children need to be moved"<<endl;
#endif
KateCodeFoldingNode *moveNode;
if (mypos == (int)node->parentNode->childCount()-1)
{
while (removepos<(int)node->childCount())
{
node->parentNode->appendChild(moveNode=node->takeChild(removepos));
moveNode->parentNode = node->parentNode;
moveNode->startLineRel += node->startLineRel;
}
}
else
{
int insertPos=mypos;
while (removepos < (int)node->childCount())
{
insertPos++;
node->parentNode->insertChild(insertPos, moveNode=node->takeChild(removepos));
moveNode->parentNode = node->parentNode; // That should solve a crash
moveNode->startLineRel += node->startLineRel;
}
}
}
}
void KateCodeFoldingTree::addOpening(KateCodeFoldingNode *node,signed char nType, TQMemArray<uint>* list,unsigned int line,unsigned int charPos)
{
uint startLine = getStartLine(node);
if ((startLine==line) && (node->type!=0))
{
#if JW_DEBUG
kdDebug(13000)<<"startLine equals line"<<endl;
#endif
if (nType == node->type)
{
#if JW_DEBUG
kdDebug(13000)<<"Node exists"<<endl;
#endif
node->deleteOpening = false;
node->startCol=charPos;
KateCodeFoldingNode *parent = node->parentNode;
if (!node->endLineValid)
{
int current = parent->findChild(node);
int count = parent->childCount()-(current+1);
node->endLineRel = parent->endLineRel - node->startLineRel;
// EXPERIMENTAL TEST BEGIN
// move this afte the test for unopened, but closed regions within the parent node, or if there are no siblings, bubble up
if (parent)
if (parent->type == node->type)
{
if (parent->endLineValid)
{
removeEnding(parent, line);
node->endLineValid = true;
}
}
// EXPERIMENTAL TEST BEGIN
if (current != (int)parent->childCount()-1)
{
//search for an unopened but closed region, even if the parent is of the same type
#ifdef __GNUC__
#warning "FIXME: why does this seem to work?"
#endif
// if (node->type != parent->type)
{
for (int i=current+1; i<(int)parent->childCount(); i++)
{
if (parent->child(i)->type == -node->type)
{
count = (i-current-1);
node->endLineValid = true;
node->endLineRel = getStartLine(parent->child(i))-line;
node->endCol = parent->child(i)->endCol;
KateCodeFoldingNode *child = parent->takeChild(i);
markedForDeleting.removeRef( child );
delete child;
break;
}
}
}
// else
// {
// parent->endLineValid = false;
// parent->endLineRel = 20000;
// }
if (count>0)
{
for (int i=0;i<count;i++)
{
KateCodeFoldingNode *tmp;
node->appendChild(tmp=parent->takeChild(current+1));
tmp->startLineRel -= node->startLineRel;
tmp->parentNode = node;
}
}
}
}
addOpening_further_iterations(node, nType, list, line, 0, startLine,node->startCol);
} //else ohoh, much work to do same line, but other region type
}
else
{ // create a new region
KateCodeFoldingNode *newNode = new KateCodeFoldingNode (node,nType,line-startLine);
something_changed = true;
int insert_position=-1;
for (int i=0; i<(int)node->childCount(); i++)
{
if (startLine+node->child(i)->startLineRel > line)
{
insert_position=i;
break;
}
}
int current;
if (insert_position==-1)
{
node->appendChild(newNode);
current = node->childCount()-1;
}
else
{
node->insertChild(insert_position, newNode);
current = insert_position;
}
// if (node->type==newNode->type)
// {
// newNode->endLineValid=true;
// node->endLineValid=false;
// newNode->endLineRel=node->endLineRel-newNode->startLineRel;
// node->endLineRel=20000; //FIXME
int count = node->childCount() - (current+1);
newNode->endLineRel -= newNode->startLineRel;
if (current != (int)node->childCount()-1)
{
if (node->type != newNode->type)
{
for (int i=current+1; i<(int)node->childCount(); i++)
{
if (node->child(i)->type == -newNode->type)
{
count = node->childCount() - i - 1;
newNode->endLineValid = true;
newNode->endLineRel = line - getStartLine(node->child(i));
KateCodeFoldingNode *child = node->takeChild(i);
markedForDeleting.removeRef( child );
delete child;
break;
}
}
}
else
{
node->endLineValid = false;
node->endLineRel = 10000;
}
if (count > 0)
{
for (int i=0;i<count;i++)
{
KateCodeFoldingNode *tmp;
newNode->appendChild(tmp=node->takeChild(current+1));
tmp->parentNode=newNode;
}
}
// }
}
addOpening(newNode, nType, list, line,charPos);
addOpening_further_iterations(node, node->type, list, line, current, startLine,node->startCol);
}
}
void KateCodeFoldingTree::addOpening_further_iterations(KateCodeFoldingNode *node,signed char /* nType */, TQMemArray<uint>*
list,unsigned int line,int current, unsigned int startLine,unsigned int charPos)
{
while (!(list->isEmpty()))
{
if (list->isEmpty())
return;
else
{
signed char data = (*list)[list->size()-2];
uint charPos=(*list)[list->size()-1];
list->resize (list->size()-2);
if (data<0)
{
#if JW_DEBUG
kdDebug(13000)<<"An ending was found"<<endl;
#endif
if (correctEndings(data,node,line,charPos,-1))
return; // -1 ?
#if 0
if(data == -nType)
{
if (node->endLineValid)
{
if (node->endLineRel+startLine==line) // We've won again
{
//handle next node;
}
else
{ // much moving
node->endLineRel=line-startLine;
node->endLineValid=true;
}
return; // next higher level should do the rest
}
else
{
node->endLineRel=line-startLine;
node->endLineValid=true;
//much moving
}
} //else add to unopened list
#endif
}
else
{
bool needNew = true;
if (current < (int)node->childCount())
{
if (getStartLine(node->child(current)) == line)
needNew=false;
}
if (needNew)
{
something_changed = true;
KateCodeFoldingNode *newNode = new KateCodeFoldingNode(node, data, line-startLine);
node->insertChild(current, newNode); //find the correct position later
}
addOpening(node->child(current), data, list, line,charPos);
current++;
//lookup node or create subnode
}
}
} // end while
}
unsigned int KateCodeFoldingTree::getStartLine(KateCodeFoldingNode *node)
{
unsigned int lineStart=0;
for (KateCodeFoldingNode *iter=node; iter->type != 0; iter=iter->parentNode)
lineStart += iter->startLineRel;
return lineStart;
}
void KateCodeFoldingTree::lineHasBeenRemoved(unsigned int line)
{
lineMapping.clear();
dontIgnoreUnchangedLines.insert(line, &trueVal);
dontIgnoreUnchangedLines.insert(line-1, &trueVal);
dontIgnoreUnchangedLines.insert(line+1, &trueVal);
hiddenLinesCountCacheValid = false;
#if JW_DEBUG
kdDebug(13000)<<TQString("KateCodeFoldingTree::lineHasBeenRemoved: %1").arg(line)<<endl;
#endif
//line ++;
findAndMarkAllNodesforRemovalOpenedOrClosedAt(line); //It's an ugly solution
cleanupUnneededNodes(line); //It's an ugly solution
KateCodeFoldingNode *node = findNodeForLine(line);
//????? if (node->endLineValid)
{
int startLine = getStartLine(node);
if (startLine == (int)line)
node->startLineRel--;
else
{
if (node->endLineRel == 0)
node->endLineValid = false;
node->endLineRel--;
}
int count = node->childCount();
for (int i=0; i<count; i++)
{
if (node->child(i)->startLineRel+startLine >= line)
node->child(i)->startLineRel--;
}
}
if (node->parentNode)
decrementBy1(node->parentNode, node);
for (TQValueList<KateHiddenLineBlock>::Iterator it=hiddenLines.begin(); it!=hiddenLines.end(); ++it)
{
if ((*it).start > line)
(*it).start--;
else if ((*it).start+(*it).length > line)
(*it).length--;
}
}
void KateCodeFoldingTree::decrementBy1(KateCodeFoldingNode *node, KateCodeFoldingNode *after)
{
if (node->endLineRel == 0)
node->endLineValid = false;
node->endLineRel--;
for (uint i=node->findChild(after)+1; i < node->childCount(); ++i)
node->child(i)->startLineRel--;
if (node->parentNode)
decrementBy1(node->parentNode,node);
}
void KateCodeFoldingTree::lineHasBeenInserted(unsigned int line)
{
lineMapping.clear();
dontIgnoreUnchangedLines.insert(line, &trueVal);
dontIgnoreUnchangedLines.insert(line-1, &trueVal);
dontIgnoreUnchangedLines.insert(line+1, &trueVal);
hiddenLinesCountCacheValid = false;
//return;
#if JW_DEBUG
kdDebug(13000)<<TQString("KateCodeFoldingTree::lineHasBeenInserted: %1").arg(line)<<endl;
#endif
// findAndMarkAllNodesforRemovalOpenedOrClosedAt(line);
// cleanupUnneededNodes(line);
KateCodeFoldingNode *node = findNodeForLine(line);
// ???????? if (node->endLineValid)
{
int startLine=getStartLine(node);
if (node->type < 0)
node->startLineRel++;
else
node->endLineRel++;
for (uint i=0; i < node->childCount(); ++i)
{
KateCodeFoldingNode *iter = node->child(i);
if (iter->startLineRel+startLine >= line)
iter->startLineRel++;
}
}
if (node->parentNode)
incrementBy1(node->parentNode, node);
for (TQValueList<KateHiddenLineBlock>::Iterator it=hiddenLines.begin(); it!=hiddenLines.end(); ++it)
{
if ((*it).start > line)
(*it).start++;
else if ((*it).start+(*it).length > line)
(*it).length++;
}
}
void KateCodeFoldingTree::incrementBy1(KateCodeFoldingNode *node, KateCodeFoldingNode *after)
{
node->endLineRel++;
for (uint i=node->findChild(after)+1; i < node->childCount(); ++i)
node->child(i)->startLineRel++;
if (node->parentNode)
incrementBy1(node->parentNode,node);
}
void KateCodeFoldingTree::findAndMarkAllNodesforRemovalOpenedOrClosedAt(unsigned int line)
{
#ifdef __GNUC__
#warning "FIXME: make this multiple region changes per line save";
#endif
// return;
markedForDeleting.clear();
KateCodeFoldingNode *node = findNodeForLine(line);
if (node->type == 0)
return;
addNodeToRemoveList(node, line);
while (((node->parentNode) && (node->parentNode->type!=0)) && (getStartLine(node->parentNode)==line))
{
node = node->parentNode;
addNodeToRemoveList(node, line);
}
#if JW_DEBUG
kdDebug(13000)<<" added line to markedForDeleting list"<<endl;
#endif
}
void KateCodeFoldingTree::addNodeToRemoveList(KateCodeFoldingNode *node,unsigned int line)
{
bool add=false;
#ifdef __GNUC__
#warning "FIXME: make this multiple region changes per line save";
#endif
unsigned int startLine=getStartLine(node);
if ((startLine==line) && (node->startLineValid))
{
add=true;
node->deleteOpening = true;
}
if ((startLine+node->endLineRel==line) || ((node->endLineValid==false) && (node->deleteOpening)))
{
int myPos=node->parentNode->findChild(node); // this has to be implemented nicely
if ((int)node->parentNode->childCount()>myPos+1)
addNodeToRemoveList(node->parentNode->child(myPos+1),line);
add=true;
node->deleteEnding = true;
}
if(add)
markedForDeleting.append(node);
}
void KateCodeFoldingTree::findAllNodesOpenedOrClosedAt(unsigned int line)
{
nodesForLine.clear();
KateCodeFoldingNode *node = findNodeForLine(line);
if (node->type == 0)
return;
unsigned int startLine = getStartLine(node);
if (startLine == line)
nodesForLine.append(node);
else if ((startLine+node->endLineRel == line))
nodesForLine.append(node);
while (node->parentNode)
{
addNodeToFoundList(node->parentNode, line, node->parentNode->findChild(node));
node = node->parentNode;
}
#if JW_DEBUG
kdDebug(13000)<<" added line to nodesForLine list"<<endl;
#endif
}
void KateCodeFoldingTree::addNodeToFoundList(KateCodeFoldingNode *node,unsigned int line,int childpos)
{
unsigned int startLine = getStartLine(node);
if ((startLine==line) && (node->type!=0))
nodesForLine.append(node);
else if ((startLine+node->endLineRel==line) && (node->type!=0))
nodesForLine.append(node);
for (int i=childpos+1; i<(int)node->childCount(); i++)
{
KateCodeFoldingNode *child = node->child(i);
if (startLine+child->startLineRel == line)
{
nodesForLine.append(child);
addNodeToFoundList(child, line, 0);
}
else
break;
}
}
void KateCodeFoldingTree::cleanupUnneededNodes(unsigned int line)
{
#if JW_DEBUG
kdDebug(13000)<<"void KateCodeFoldingTree::cleanupUnneededNodes(unsigned int line)"<<endl;
#endif
// return;
if (markedForDeleting.isEmpty())
return;
for (int i=0; i<(int)markedForDeleting.count(); i++)
{
KateCodeFoldingNode *node = markedForDeleting.tqat(i);
if (node->deleteOpening)
kdDebug(13000)<<"DELETE OPENING SET"<<endl;
if (node->deleteEnding)
kdDebug(13000)<<"DELETE ENDING SET"<<endl;
if ((node->deleteOpening) && (node->deleteEnding))
{
#if JW_DEBUG
kdDebug(13000)<<"Deleting complete node"<<endl;
#endif
if (node->endLineValid) // just delete it, it has been opened and closed on this line
{
int f = node->parentNode->findChild (node);
if (f >= 0)
delete node->parentNode->takeChild(f);
}
else
{
removeOpening(node, line);
// the node has subnodes which need to be moved up and this one has to be deleted
}
something_changed = true;
}
else
{
if ((node->deleteOpening) && (node->startLineValid))
{
#if JW_DEBUG
kdDebug(13000)<<"calling removeOpening"<<endl;
#endif
removeOpening(node, line);
something_changed = true;
}
else
{
dontDeleteOpening(node);
if ((node->deleteEnding) && (node->endLineValid))
{
dontDeleteEnding(node);
removeEnding(node, line);
something_changed = true;
}
else
dontDeleteEnding(node);
}
}
}
}
void KateCodeFoldingTree::dontDeleteEnding(KateCodeFoldingNode* node)
{
node->deleteEnding = false;
}
void KateCodeFoldingTree::dontDeleteOpening(KateCodeFoldingNode* node)
{
node->deleteOpening = false;
}
void KateCodeFoldingTree::toggleRegionVisibility(unsigned int line)
{
// hl whole file
m_buffer->line (m_buffer->count()-1);
lineMapping.clear();
hiddenLinesCountCacheValid = false;
kdDebug(13000)<<TQString(TQString("KateCodeFoldingTree::toggleRegionVisibility() %1").arg(line))<<endl;
findAllNodesOpenedOrClosedAt(line);
for (int i=0; i<(int)nodesForLine.count(); i++)
{
KateCodeFoldingNode *node=nodesForLine.tqat(i);
if ( (!node->startLineValid) || (getStartLine(node) != line) )
{
nodesForLine.remove(i);
i--;
}
}
if (nodesForLine.isEmpty())
return;
nodesForLine.tqat(0)->visible = !nodesForLine.tqat(0)->visible;
if (!nodesForLine.tqat(0)->visible)
addHiddenLineBlock(nodesForLine.tqat(0),line);
else
{
for (TQValueList<KateHiddenLineBlock>::Iterator it=hiddenLines.begin(); it!=hiddenLines.end();++it)
if ((*it).start == line+1)
{
hiddenLines.remove(it);
break;
}
updateHiddenSubNodes(nodesForLine.tqat(0));
}
emit regionVisibilityChangedAt(line);
}
void KateCodeFoldingTree::updateHiddenSubNodes(KateCodeFoldingNode *node)
{
for (uint i=0; i < node->childCount(); ++i)
{
KateCodeFoldingNode *iter = node->child(i);
if (!iter->visible)
addHiddenLineBlock(iter, getStartLine(iter));
else
updateHiddenSubNodes(iter);
}
}
void KateCodeFoldingTree::addHiddenLineBlock(KateCodeFoldingNode *node,unsigned int line)
{
KateHiddenLineBlock data;
data.start = line+1;
data.length = node->endLineRel-(existsOpeningAtLineAfter(line+node->endLineRel,node)?1:0); // without -1;
bool inserted = false;
for (TQValueList<KateHiddenLineBlock>::Iterator it=hiddenLines.begin(); it!=hiddenLines.end(); ++it)
{
if (((*it).start>=data.start) && ((*it).start<=data.start+data.length-1)) // another hidden block starting at the within this block already exits -> adapt new block
{
// the existing block can't have lines behind the new one, because a newly hidden
// block has to encapsulate already hidden ones
it=hiddenLines.remove(it);
--it;
}
else
{
if ((*it).start > line)
{
hiddenLines.insert(it, data);
inserted = true;
break;
}
}
}
if (!inserted)
hiddenLines.append(data);
}
bool KateCodeFoldingTree::existsOpeningAtLineAfter(unsigned int line, KateCodeFoldingNode *node)
{
for(KateCodeFoldingNode *tmp = node->parentNode; tmp; tmp=tmp->parentNode)
{
KateCodeFoldingNode *tmp2;
unsigned int startLine=getStartLine(tmp);
if ((tmp2 = tmp->child(tmp->findChild(node) + 1))
&& ((tmp2->startLineRel + startLine) == line))
return true;
if ((startLine + tmp->endLineRel) > line)
return false;
}
return false;
}
//
// get the real line number for a virtual line
//
unsigned int KateCodeFoldingTree::getRealLine(unsigned int virtualLine)
{
// he, if nothing is hidden, why look at it ;)
if (hiddenLines.isEmpty())
return virtualLine;
// kdDebug(13000)<<TQString("VirtualLine %1").arg(virtualLine)<<endl;
unsigned int *real=lineMapping[virtualLine];
if (real)
return (*real);
unsigned int tmp = virtualLine;
for (TQValueList<KateHiddenLineBlock>::ConstIterator it=hiddenLines.begin();it!=hiddenLines.end();++it)
{
if ((*it).start<=virtualLine)
virtualLine += (*it).length;
else
break;
}
// kdDebug(13000)<<TQString("Real Line %1").arg(virtualLine)<<endl;
lineMapping.insert(tmp, new unsigned int(virtualLine));
return virtualLine;
}
//
// get the virtual line number for a real line
//
unsigned int KateCodeFoldingTree::getVirtualLine(unsigned int realLine)
{
// he, if nothing is hidden, why look at it ;)
if (hiddenLines.isEmpty())
return realLine;
// kdDebug(13000)<<TQString("RealLine--> %1").arg(realLine)<<endl;
for (TQValueList<KateHiddenLineBlock>::ConstIterator it=hiddenLines.fromLast(); it!=hiddenLines.end(); --it)
{
if ((*it).start <= realLine)
realLine -= (*it).length;
// else
// break;
}
// kdDebug(13000)<<TQString("-->virtual Line %1").arg(realLine)<<endl;
return realLine;
}
//
// get the number of hidden lines
//
unsigned int KateCodeFoldingTree::getHiddenLinesCount(unsigned int doclen)
{
// he, if nothing is hidden, why look at it ;)
if (hiddenLines.isEmpty())
return 0;
if (hiddenLinesCountCacheValid)
return hiddenLinesCountCache;
hiddenLinesCountCacheValid = true;
hiddenLinesCountCache = 0;
for (TQValueList<KateHiddenLineBlock>::ConstIterator it=hiddenLines.begin(); it!=hiddenLines.end(); ++it)
{
if ((*it).start+(*it).length<=doclen)
hiddenLinesCountCache += (*it).length;
else
{
hiddenLinesCountCache += ((*it).length- ((*it).length + (*it).start - doclen));
break;
}
}
return hiddenLinesCountCache;
}
void KateCodeFoldingTree::collapseToplevelNodes()
{
// hl whole file
m_buffer->line (m_buffer->count()-1);
if (m_root.noChildren ())
return;
for ( uint i=0; i < m_root.childCount(); ++i )
{
KateCodeFoldingNode *node = m_root.child(i);
if (node->visible && node->startLineValid && node->endLineValid)
{
node->visible=false;
lineMapping.clear();
hiddenLinesCountCacheValid = false;
addHiddenLineBlock(node,node->startLineRel);
emit regionVisibilityChangedAt(node->startLineRel);
}
}
}
void KateCodeFoldingTree::expandToplevelNodes(int numLines)
{
// hl whole file
m_buffer->line (m_buffer->count()-1);
KateLineInfo line;
for (int i = 0; i < numLines; i++) {
getLineInfo(&line, i);
if (line.startsInVisibleBlock)
toggleRegionVisibility(i);
}
}
int KateCodeFoldingTree::collapseOne(int realLine)
{
// hl whole file
m_buffer->line (m_buffer->count()-1);
KateLineInfo line;
int unrelatedBlocks = 0;
for (int i = realLine; i >= 0; i--) {
getLineInfo(&line, i);
if (line.topLevel && !line.endsBlock)
// optimisation
break;
if (line.endsBlock && ( line.invalidBlockEnd ) && (i != realLine)) {
unrelatedBlocks++;
}
if (line.startsVisibleBlock) {
unrelatedBlocks--;
if (unrelatedBlocks == -1) {
toggleRegionVisibility(i);
return i;
}
}
}
return -1;
}
void KateCodeFoldingTree::expandOne(int realLine, int numLines)
{
// hl whole file
m_buffer->line (m_buffer->count()-1);
KateLineInfo line;
int blockTrack = 0;
for (int i = realLine; i >= 0; i--) {
getLineInfo(&line, i);
if (line.topLevel)
// done
break;
if (line.startsInVisibleBlock && i != realLine) {
if (blockTrack == 0)
toggleRegionVisibility(i);
blockTrack--;
}
if (line.endsBlock)
blockTrack++;
if (blockTrack < 0)
// too shallow
break;
}
blockTrack = 0;
for (int i = realLine; i < numLines; i++) {
getLineInfo(&line, i);
if (line.topLevel)
// done
break;
if (line.startsInVisibleBlock) {
if (blockTrack == 0)
toggleRegionVisibility(i);
blockTrack++;
}
if (line.endsBlock)
blockTrack--;
if (blockTrack < 0)
// too shallow
break;
}
}
void KateCodeFoldingTree::ensureVisible( uint line )
{
// first have a look, if the line is really hidden
bool found=false;
for (TQValueList<KateHiddenLineBlock>::ConstIterator it=hiddenLines.begin();it!=hiddenLines.end();++it)
{
if ( ((*it).start<=line) && ((*it).start+(*it).length>line) )
{
found=true;
break;
}
}
if (!found) return;
kdDebug(13000)<<"line "<<line<<" is really hidden ->show block"<<endl;
// it looks like we really have to ensure visibility
KateCodeFoldingNode *n = findNodeForLine( line );
do {
if ( ! n->visible )
toggleRegionVisibility( getStartLine( n ) );
n = n->parentNode;
} while( n );
}
// kate: space-indent on; indent-width 2; replace-tabs on;