You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
tdelibs/kate/part/katebuffer.cpp

1661 lines
43 KiB

/* This file is part of the KDE libraries
Copyright (c) 2000 Waldo Bastian <bastian@kde.org>
Copyright (C) 2002-2004 Christoph Cullmann <cullmann@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 <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include "katebuffer.h"
#include "katebuffer.moc"
#include "katedocument.h"
#include "katehighlight.h"
#include "kateconfig.h"
#include "katefactory.h"
#include "kateautoindent.h"
#include <kdebug.h>
#include <kglobal.h>
#include <kcharsets.h>
#include <tqpopupmenu.h>
#include <tqfile.h>
#include <tqtextstream.h>
#include <tqtimer.h>
#include <tqtextcodec.h>
#include <tqcstring.h>
#include <tqdatetime.h>
/**
* loader block size, load 256 kb at once per default
* if file size is smaller, fall back to file size
*/
static const TQ_ULONG KATE_FILE_LOADER_BS = 256 * 1024;
/**
* KATE_AVG_BLOCK_SIZE is in characters !
* (internaly we calc with approx 80 chars per line !)
* block will max contain around BLOCK_SIZE chars or
* BLOCK_LINES lines (after load, later that won't be tracked)
*/
static const TQ_ULONG KATE_AVG_BLOCK_SIZE = 2048 * 80;
static const TQ_ULONG KATE_MAX_BLOCK_LINES = 2048;
/**
* hl will look at the next KATE_HL_LOOKAHEAD lines
* or until the current block ends if a line is requested
* will avoid to run doHighlight too often
*/
static const uint KATE_HL_LOOKAHEAD = 64;
/**
* KATE_MAX_BLOCKS_LOADED should be at least 4, as some
* methodes will cause heavy trashing, if not at least the
* latest 2-3 used blocks are alive
*/
uint KateBuffer::m_maxLoadedBlocks = 16;
/**
* Initial value for m_maxDynamicContexts
*/
static const uint KATE_MAX_DYNAMIC_CONTEXTS = 512;
void KateBuffer::setMaxLoadedBlocks (uint count)
{
m_maxLoadedBlocks = kMax (4U, count);
}
class KateFileLoader
{
public:
KateFileLoader (const TQString &filename, TQTextCodec *codec, bool removeTrailingSpaces)
: m_file (filename)
, m_buffer (kMin ((TQ_ULONG)m_file.size(), KATE_FILE_LOADER_BS))
, m_codec (codec)
, m_decoder (m_codec->makeDecoder())
, m_position (0)
, m_lastLineStart (0)
, m_eof (false) // default to not eof
, lastWasEndOfLine (true) // at start of file, we had a virtual newline
, lastWasR (false) // we have not found a \r as last char
, m_eol (-1) // no eol type detected atm
, m_twoByteEncoding (TQString(codec->name()) == "ISO-10646-UCS-2")
, m_binary (false)
, m_removeTrailingSpaces (removeTrailingSpaces)
{
kdDebug (13020) << "OPEN USES ENCODING: " << m_codec->name() << endl;
}
~KateFileLoader ()
{
delete m_decoder;
}
/**
* open file, read first chunk of data, detect eol
*/
bool open ()
{
if (m_file.open (IO_ReadOnly))
{
int c = m_file.readBlock (m_buffer.data(), m_buffer.size());
if (c > 0)
{
// fix utf16 LE, stolen from khtml ;)
if ((c >= 2) && (m_codec->mibEnum() == 1000) && (m_buffer[1] == 0x00))
{
// utf16LE, we need to put the decoder in LE mode
char reverseUtf16[3] = {'\xFF', '\xFE', '\x00'};
m_decoder->toUnicode(reverseUtf16, 2);
}
processNull (c);
m_text = m_decoder->toUnicode (m_buffer, c);
}
m_eof = (c == -1) || (c == 0) || (m_text.length() == 0) || m_file.atEnd();
for (uint i=0; i < m_text.length(); i++)
{
if (m_text[i] == '\n')
{
m_eol = KateDocumentConfig::eolUnix;
break;
}
else if ((m_text[i] == '\r'))
{
if (((i+1) < m_text.length()) && (m_text[i+1] == '\n'))
{
m_eol = KateDocumentConfig::eolDos;
break;
}
else
{
m_eol = KateDocumentConfig::eolMac;
break;
}
}
}
return true;
}
return false;
}
// no new lines around ?
inline bool eof () const { return m_eof && !lastWasEndOfLine && (m_lastLineStart == m_text.length()); }
// eol mode ? autodetected on open(), -1 for no eol found in the first block!
inline int eol () const { return m_eol; }
// binary ?
inline bool binary () const { return m_binary; }
// should spaces be ignored at end of line?
inline bool removeTrailingSpaces () const { return m_removeTrailingSpaces; }
// internal unicode data array
inline const TQChar *unicode () const { return m_text.unicode(); }
// read a line, return length + offset in unicode data
void readLine (uint &offset, uint &length)
{
length = 0;
offset = 0;
while (m_position <= m_text.length())
{
if (m_position == m_text.length())
{
// try to load more text if something is around
if (!m_eof)
{
int c = m_file.readBlock (m_buffer.data(), m_buffer.size());
uint readString = 0;
if (c > 0)
{
processNull (c);
TQString str (m_decoder->toUnicode (m_buffer, c));
readString = str.length();
m_text = m_text.mid (m_lastLineStart, m_position-m_lastLineStart)
+ str;
}
else
m_text = m_text.mid (m_lastLineStart, m_position-m_lastLineStart);
// is file completly read ?
m_eof = (c == -1) || (c == 0) || (readString == 0) || m_file.atEnd();
// recalc current pos and last pos
m_position -= m_lastLineStart;
m_lastLineStart = 0;
}
// oh oh, end of file, escape !
if (m_eof && (m_position == m_text.length()))
{
lastWasEndOfLine = false;
// line data
offset = m_lastLineStart;
length = m_position-m_lastLineStart;
m_lastLineStart = m_position;
return;
}
}
if (m_text[m_position] == '\n')
{
lastWasEndOfLine = true;
if (lastWasR)
{
m_lastLineStart++;
lastWasR = false;
}
else
{
// line data
offset = m_lastLineStart;
length = m_position-m_lastLineStart;
m_lastLineStart = m_position+1;
m_position++;
return;
}
}
else if (m_text[m_position] == '\r')
{
lastWasEndOfLine = true;
lastWasR = true;
// line data
offset = m_lastLineStart;
length = m_position-m_lastLineStart;
m_lastLineStart = m_position+1;
m_position++;
return;
}
else
{
lastWasEndOfLine = false;
lastWasR = false;
}
m_position++;
}
}
// this nice methode will kill all 0 bytes (or double bytes)
// and remember if this was a binary or not ;)
void processNull (uint length)
{
if (m_twoByteEncoding)
{
for (uint i=1; i < length; i+=2)
{
if ((m_buffer[i] == 0) && (m_buffer[i-1] == 0))
{
m_binary = true;
m_buffer[i] = ' ';
}
}
}
else
{
for (uint i=0; i < length; i++)
{
if (m_buffer[i] == 0)
{
m_binary = true;
m_buffer[i] = ' ';
}
}
}
}
private:
TQFile m_file;
TQByteArray m_buffer;
TQTextCodec *m_codec;
TQTextDecoder *m_decoder;
TQString m_text;
uint m_position;
uint m_lastLineStart;
bool m_eof;
bool lastWasEndOfLine;
bool lastWasR;
int m_eol;
bool m_twoByteEncoding;
bool m_binary;
bool m_removeTrailingSpaces;
};
/**
* Create an empty buffer. (with one block with one empty line)
*/
KateBuffer::KateBuffer(KateDocument *doc)
: TQObject (doc),
editSessionNumber (0),
editIsRunning (false),
editTagLineStart (0xffffffff),
editTagLineEnd (0),
editTagLineFrom (false),
editChangesDone (false),
m_doc (doc),
m_lines (0),
m_lastInSyncBlock (0),
m_lastFoundBlock (0),
m_cacheReadError(false),
m_cacheWriteError(false),
m_loadingBorked (false),
m_binary (false),
m_highlight (0),
m_regionTree (this),
m_tabWidth (8),
m_lineHighlightedMax (0),
m_lineHighlighted (0),
m_maxDynamicContexts (KATE_MAX_DYNAMIC_CONTEXTS)
{
clear();
}
/**
* Cleanup on destruction
*/
KateBuffer::~KateBuffer()
{
// DELETE ALL BLOCKS, will free mem
for (uint i=0; i < m_blocks.size(); i++)
delete m_blocks[i];
// release HL
if (m_highlight)
m_highlight->release();
}
void KateBuffer::editStart ()
{
editSessionNumber++;
if (editSessionNumber > 1)
return;
editIsRunning = true;
editTagLineStart = 0xffffffff;
editTagLineEnd = 0;
editTagLineFrom = false;
editChangesDone = false;
}
void KateBuffer::editEnd ()
{
if (editSessionNumber == 0)
return;
editSessionNumber--;
if (editSessionNumber > 0)
return;
if (editChangesDone)
{
// hl update !!!
if ( m_highlight && !m_highlight->noHighlighting()
&& (editTagLineStart <= editTagLineEnd)
&& (editTagLineEnd <= m_lineHighlighted))
{
// look one line too far, needed for linecontinue stuff
editTagLineEnd++;
// look one line before, needed nearly 100% only for indentation based folding !
if (editTagLineStart > 0)
editTagLineStart--;
KateBufBlock *buf2 = 0;
bool needContinue = false;
while ((buf2 = findBlock(editTagLineStart)))
{
needContinue = doHighlight (buf2,
(editTagLineStart > buf2->startLine()) ? editTagLineStart : buf2->startLine(),
(editTagLineEnd > buf2->endLine()) ? buf2->endLine() : editTagLineEnd,
true);
editTagLineStart = (editTagLineEnd > buf2->endLine()) ? buf2->endLine() : editTagLineEnd;
if ((editTagLineStart >= m_lines) || (editTagLineStart >= editTagLineEnd))
break;
}
if (needContinue)
m_lineHighlighted = editTagLineStart;
if (editTagLineStart > m_lineHighlightedMax)
m_lineHighlightedMax = editTagLineStart;
}
else if (editTagLineStart < m_lineHighlightedMax)
m_lineHighlightedMax = editTagLineStart;
}
editIsRunning = false;
}
void KateBuffer::clear()
{
m_regionTree.clear();
// cleanup the blocks
for (uint i=0; i < m_blocks.size(); i++)
delete m_blocks[i];
m_blocks.clear ();
// create a bufblock with one line, we need that, only in openFile we won't have that
KateBufBlock *block = new KateBufBlock(this, 0, 0);
m_blocks.append (block);
// reset the state
m_lines = block->lines();
m_lastInSyncBlock = 0;
m_lastFoundBlock = 0;
m_cacheWriteError = false;
m_cacheReadError = false;
m_loadingBorked = false;
m_binary = false;
m_lineHighlightedMax = 0;
m_lineHighlighted = 0;
}
bool KateBuffer::openFile (const TQString &m_file)
{
KateFileLoader file (m_file, m_doc->config()->codec(), m_doc->configFlags() & KateDocument::cfRemoveSpaces);
bool ok = false;
struct stat sbuf;
if (stat(TQFile::encodeName(m_file), &sbuf) == 0)
{
if (S_ISREG(sbuf.st_mode) && file.open())
ok = true;
}
if (!ok)
{
clear();
return false; // Error
}
// set eol mode, if a eol char was found in the first 256kb block and we allow this at all!
if (m_doc->config()->allowEolDetection() && (file.eol() != -1))
m_doc->config()->setEol (file.eol());
// flush current content
clear ();
// cleanup the blocks
for (uint i=0; i < m_blocks.size(); i++)
delete m_blocks[i];
m_blocks.clear ();
// do the real work
KateBufBlock *block = 0;
m_lines = 0;
while (!file.eof() && !m_cacheWriteError)
{
block = new KateBufBlock (this, block, 0, &file);
m_lines = block->endLine ();
if (m_cacheWriteError || (block->lines() == 0))
{
delete block;
break;
}
else
m_blocks.append (block);
}
// we had a cache write error, this load is really borked !
if (m_cacheWriteError)
m_loadingBorked = true;
if (m_blocks.isEmpty() || (m_lines == 0))
{
// file was really empty, clean the buffers + emit the line changed
// loadingBorked will be false for such files, not matter what happened
// before
clear ();
}
else
{
// fix region tree
m_regionTree.fixRoot (m_lines);
}
// if we have no hl or the "None" hl activated, whole file is correct highlighted
// after loading, which wonder ;)
if (!m_highlight || m_highlight->noHighlighting())
{
m_lineHighlighted = m_lines;
m_lineHighlightedMax = m_lines;
}
// binary?
m_binary = file.binary ();
kdDebug (13020) << "LOADING DONE" << endl;
return !m_loadingBorked;
}
bool KateBuffer::canEncode ()
{
TQTextCodec *codec = m_doc->config()->codec();
kdDebug(13020) << "ENC NAME: " << codec->name() << endl;
// hardcode some unicode encodings which can encode all chars
if ((TQString(codec->name()) == "UTF-8") || (TQString(codec->name()) == "ISO-10646-UCS-2"))
return true;
for (uint i=0; i < m_lines; i++)
{
if (!codec->canEncode (plainLine(i)->string()))
{
kdDebug(13020) << "STRING LINE: " << plainLine(i)->string() << endl;
kdDebug(13020) << "ENC WORKING: FALSE" << endl;
return false;
}
}
return true;
}
bool KateBuffer::saveFile (const TQString &m_file)
{
TQFile file (m_file);
TQTextStream stream (&file);
if ( !file.open( IO_WriteOnly ) )
{
return false; // Error
}
TQTextCodec *codec = m_doc->config()->codec();
// disable Unicode headers
stream.setEncoding(TQTextStream::RawUnicode);
// this line sets the mapper to the correct codec
stream.setCodec(codec);
// our loved eol string ;)
TQString eol = m_doc->config()->eolString ();
// should we strip spaces?
bool removeTrailingSpaces = m_doc->configFlags() & KateDocument::cfRemoveSpaces;
// just dump the lines out ;)
for (uint i=0; i < m_lines; i++)
{
KateTextLine::Ptr textline = plainLine(i);
// strip spaces
if (removeTrailingSpaces)
{
int lastChar = textline->lastChar();
if (lastChar > -1)
{
stream << TQConstString (textline->text(), lastChar+1).string();
}
}
else // simple, dump the line
stream << textline->string();
if ((i+1) < m_lines)
stream << eol;
}
file.close ();
m_loadingBorked = false;
return (file.status() == IO_Ok);
}
KateTextLine::Ptr KateBuffer::line_internal (KateBufBlock *buf, uint i)
{
// update hl until this line + max KATE_HL_LOOKAHEAD
KateBufBlock *buf2 = 0;
while ((i >= m_lineHighlighted) && (buf2 = findBlock(m_lineHighlighted)))
{
uint end = kMin(i + KATE_HL_LOOKAHEAD, buf2->endLine());
doHighlight ( buf2,
kMax(m_lineHighlighted, buf2->startLine()),
end,
false );
m_lineHighlighted = end;
}
// update hl max
if (m_lineHighlighted > m_lineHighlightedMax)
m_lineHighlightedMax = m_lineHighlighted;
return buf->line (i - buf->startLine());
}
KateBufBlock *KateBuffer::findBlock_internal (uint i, uint *index)
{
uint lastLine = m_blocks[m_lastInSyncBlock]->endLine ();
if (lastLine > i) // we are in a allready known area !
{
while (true)
{
KateBufBlock *buf = m_blocks[m_lastFoundBlock];
if ( (buf->startLine() <= i)
&& (buf->endLine() > i) )
{
if (index)
(*index) = m_lastFoundBlock;
return m_blocks[m_lastFoundBlock];
}
if (i < buf->startLine())
m_lastFoundBlock--;
else
m_lastFoundBlock++;
}
}
else // we need first to resync the startLines !
{
if ((m_lastInSyncBlock+1) < m_blocks.size())
m_lastInSyncBlock++;
else
return 0;
for (; m_lastInSyncBlock < m_blocks.size(); m_lastInSyncBlock++)
{
// get next block
KateBufBlock *buf = m_blocks[m_lastInSyncBlock];
// sync startLine !
buf->setStartLine (lastLine);
// is it allready the searched block ?
if ((i >= lastLine) && (i < buf->endLine()))
{
// remember this block as last found !
m_lastFoundBlock = m_lastInSyncBlock;
if (index)
(*index) = m_lastFoundBlock;
return buf;
}
// increase lastLine with blocklinecount
lastLine += buf->lines ();
}
}
// no block found !
// index will not be set to any useful value in this case !
return 0;
}
void KateBuffer::changeLine(uint i)
{
KateBufBlock *buf = findBlock(i);
if (!buf)
return;
// mark this block dirty
buf->markDirty ();
// mark buffer changed
editChangesDone = true;
// tag this line as changed
if (i < editTagLineStart)
editTagLineStart = i;
if (i > editTagLineEnd)
editTagLineEnd = i;
}
void KateBuffer::insertLine(uint i, KateTextLine::Ptr line)
{
uint index = 0;
KateBufBlock *buf;
if (i == m_lines)
buf = findBlock(i-1, &index);
else
buf = findBlock(i, &index);
if (!buf)
return;
buf->insertLine(i - buf->startLine(), line);
if (m_lineHighlightedMax > i)
m_lineHighlightedMax++;
if (m_lineHighlighted > i)
m_lineHighlighted++;
m_lines++;
// last sync block adjust
if (m_lastInSyncBlock > index)
m_lastInSyncBlock = index;
// last found
if (m_lastInSyncBlock < m_lastFoundBlock)
m_lastFoundBlock = m_lastInSyncBlock;
// mark buffer changed
editChangesDone = true;
// tag this line as inserted
if (i < editTagLineStart)
editTagLineStart = i;
if (i <= editTagLineEnd)
editTagLineEnd++;
if (i > editTagLineEnd)
editTagLineEnd = i;
// line inserted
editTagLineFrom = true;
m_regionTree.lineHasBeenInserted (i);
}
void KateBuffer::removeLine(uint i)
{
uint index = 0;
KateBufBlock *buf = findBlock(i, &index);
if (!buf)
return;
buf->removeLine(i - buf->startLine());
if (m_lineHighlightedMax > i)
m_lineHighlightedMax--;
if (m_lineHighlighted > i)
m_lineHighlighted--;
m_lines--;
// trash away a empty block
if (buf->lines() == 0)
{
// we need to change which block is last in sync
if (m_lastInSyncBlock >= index)
{
m_lastInSyncBlock = index;
if (buf->next())
{
if (buf->prev())
buf->next()->setStartLine (buf->prev()->endLine());
else
buf->next()->setStartLine (0);
}
}
// cu block !
delete buf;
m_blocks.erase (m_blocks.begin()+index);
// make sure we don't keep a pointer to the deleted block
if( m_lastInSyncBlock >= index )
m_lastInSyncBlock = index - 1;
}
else
{
// last sync block adjust
if (m_lastInSyncBlock > index)
m_lastInSyncBlock = index;
}
// last found
if (m_lastInSyncBlock < m_lastFoundBlock)
m_lastFoundBlock = m_lastInSyncBlock;
// mark buffer changed
editChangesDone = true;
// tag this line as removed
if (i < editTagLineStart)
editTagLineStart = i;
if (i < editTagLineEnd)
editTagLineEnd--;
if (i > editTagLineEnd)
editTagLineEnd = i;
// line removed
editTagLineFrom = true;
m_regionTree.lineHasBeenRemoved (i);
}
void KateBuffer::setTabWidth (uint w)
{
if ((m_tabWidth != w) && (m_tabWidth > 0))
{
m_tabWidth = w;
if (m_highlight && m_highlight->foldingIndentationSensitive())
invalidateHighlighting();
}
}
void KateBuffer::setHighlight(uint hlMode)
{
KateHighlighting *h = KateHlManager::self()->getHl(hlMode);
// aha, hl will change
if (h != m_highlight)
{
bool invalidate = !h->noHighlighting();
if (m_highlight)
{
m_highlight->release();
invalidate = true;
}
h->use();
// Clear code folding tree (see bug #124102)
m_regionTree.clear();
m_regionTree.fixRoot(m_lines);
// try to set indentation
if (!h->indentation().isEmpty())
m_doc->config()->setIndentationMode (KateAutoIndent::modeNumber(h->indentation()));
m_highlight = h;
if (invalidate)
invalidateHighlighting();
// inform the document that the hl was really changed
// needed to update attributes and more ;)
m_doc->bufferHlChanged ();
}
}
void KateBuffer::invalidateHighlighting()
{
m_lineHighlightedMax = 0;
m_lineHighlighted = 0;
}
void KateBuffer::updatePreviousNotEmptyLine(KateBufBlock *blk,uint current_line,bool addindent,uint deindent)
{
KateTextLine::Ptr textLine;
do {
if (current_line>0) current_line--;
else
{
uint line=blk->startLine()+current_line;
if (line==0) return;
line--;
blk=findBlock(line);
if (!blk) {
kdDebug(13020)<<"updatePreviousNotEmptyLine: block not found, this must not happen"<<endl;
return;
}
current_line=line-blk->startLine();
}
textLine = blk->line(current_line);
} while (textLine->firstChar()==-1);
kdDebug(13020)<<"updatePreviousNotEmptyLine: updating line:"<<(blk->startLine()+current_line)<<endl;
TQMemArray<uint> foldingList=textLine->foldingListArray();
while ( (foldingList.size()>0) && ( labs(foldingList[foldingList.size()-2])==1)) {
foldingList.resize(foldingList.size()-2,TQGArray::SpeedOptim);
}
addIndentBasedFoldingInformation(foldingList,addindent,deindent);
textLine->setFoldingList(foldingList);
bool retVal_folding = false;
m_regionTree.updateLine (current_line + blk->startLine(), &foldingList, &retVal_folding, true,false);
emit tagLines (blk->startLine()+current_line, blk->startLine()+current_line);
}
void KateBuffer::addIndentBasedFoldingInformation(TQMemArray<uint> &foldingList,bool addindent,uint deindent)
{
if (addindent) {
//kdDebug(13020)<<"adding indent for line :"<<current_line + buf->startLine()<<" textLine->noIndentBasedFoldingAtStart"<<textLine->noIndentBasedFoldingAtStart()<<endl;
kdDebug(13020)<<"adding ident"<<endl;
foldingList.resize (foldingList.size() + 2, TQGArray::SpeedOptim);
foldingList[foldingList.size()-2] = 1;
foldingList[foldingList.size()-1] = 0;
}
kdDebug(13020)<<"DEINDENT: "<<deindent<<endl;
if (deindent > 0)
{
foldingList.resize (foldingList.size() + (deindent*2), TQGArray::SpeedOptim);
for (uint z= foldingList.size()-(deindent*2); z < foldingList.size(); z=z+2)
{
foldingList[z] = -1;
foldingList[z+1] = 0;
}
}
}
bool KateBuffer::doHighlight (KateBufBlock *buf, uint startLine, uint endLine, bool invalidate)
{
// no hl around, no stuff to do
if (!m_highlight)
return false;
/*if (m_highlight->foldingIndentationSensitive())
{
startLine=0;
endLine=50;
}*/
// we tried to start in a line behind this buf block !
if (startLine >= (buf->startLine()+buf->lines()))
return false;
//TQTime t;
//t.start();
//kdDebug (13020) << "HIGHLIGHTED START --- NEED HL, LINESTART: " << startLine << " LINEEND: " << endLine << endl;
//kdDebug (13020) << "HL UNTIL LINE: " << m_lineHighlighted << " MAX: " << m_lineHighlightedMax << endl;
//kdDebug (13020) << "HL DYN COUNT: " << KateHlManager::self()->countDynamicCtxs() << " MAX: " << m_maxDynamicContexts << endl;
// see if there are too many dynamic contexts; if yes, invalidate HL of all documents
if (KateHlManager::self()->countDynamicCtxs() >= m_maxDynamicContexts)
{
{
if (KateHlManager::self()->resetDynamicCtxs())
{
kdDebug (13020) << "HL invalidated - too many dynamic contexts ( >= " << m_maxDynamicContexts << ")" << endl;
// avoid recursive invalidation
KateHlManager::self()->setForceNoDCReset(true);
for (KateDocument *doc = KateFactory::self()->documents()->first(); doc; doc = KateFactory::self()->documents()->next())
doc->makeAttribs();
// doHighlight *shall* do his work. After invalidation, some highlight has
// been recalculated, but *maybe not* until endLine ! So we shall force it manually...
KateBufBlock *buf = 0;
while ((endLine > m_lineHighlighted) && (buf = findBlock(m_lineHighlighted)))
{
uint end = kMin(endLine, buf->endLine());
doHighlight ( buf,
kMax(m_lineHighlighted, buf->startLine()),
end,
false );
m_lineHighlighted = end;
}
KateHlManager::self()->setForceNoDCReset(false);
return false;
}
else
{
m_maxDynamicContexts *= 2;
kdDebug (13020) << "New dynamic contexts limit: " << m_maxDynamicContexts << endl;
}
}
}
// get the previous line, if we start at the beginning of this block
// take the last line of the previous block
KateTextLine::Ptr prevLine = 0;
if ((startLine == buf->startLine()) && buf->prev() && (buf->prev()->lines() > 0))
prevLine = buf->prev()->line (buf->prev()->lines() - 1);
else if ((startLine > buf->startLine()) && (startLine <= buf->endLine()))
prevLine = buf->line(startLine - buf->startLine() - 1);
else
prevLine = new KateTextLine ();
// does we need to emit a signal for the folding changes ?
bool codeFoldingUpdate = false;
// here we are atm, start at start line in the block
uint current_line = startLine - buf->startLine();
// do we need to continue
bool stillcontinue=false;
bool indentContinueWhitespace=false;
bool indentContinueNextWhitespace=false;
// loop over the lines of the block, from startline to endline or end of block
// if stillcontinue forces us to do so
while ( (current_line < buf->lines())
&& (stillcontinue || ((current_line + buf->startLine()) <= endLine)) )
{
// current line
KateTextLine::Ptr textLine = buf->line(current_line);
TQMemArray<uint> foldingList;
bool ctxChanged = false;
m_highlight->doHighlight (prevLine, textLine, &foldingList, &ctxChanged);
//
// indentation sensitive folding
//
bool indentChanged = false;
if (m_highlight->foldingIndentationSensitive())
{
// get the indentation array of the previous line to start with !
TQMemArray<unsigned short> indentDepth;
indentDepth.duplicate (prevLine->indentationDepthArray());
// current indentation of this line
uint iDepth = textLine->indentDepth(m_tabWidth);
if ((current_line+buf->startLine())==0)
{
indentDepth.resize (1, TQGArray::SpeedOptim);
indentDepth[0] = iDepth;
}
textLine->setNoIndentBasedFoldingAtStart(prevLine->noIndentBasedFolding());
// this line is empty, beside spaces, or has indentaion based folding disabled, use indentation depth of the previous line !
kdDebug(13020)<<"current_line:"<<current_line + buf->startLine()<<" textLine->noIndentBasedFoldingAtStart"<<textLine->noIndentBasedFoldingAtStart()<<endl;
if ( (textLine->firstChar() == -1) || textLine->noIndentBasedFoldingAtStart())
{
// do this to get skipped empty lines indent right, which was given in the indenation array
if (!prevLine->indentationDepthArray().isEmpty())
{
iDepth = (prevLine->indentationDepthArray())[prevLine->indentationDepthArray().size()-1];
kdDebug(13020)<<"reusing old depth as current"<<endl;
}
else
{
iDepth = prevLine->indentDepth(m_tabWidth);
kdDebug(13020)<<"creating indentdepth for previous line"<<endl;
}
}
kdDebug(13020)<<"iDepth:"<<iDepth<<endl;
// query the next line indentation, if we are at the end of the block
// use the first line of the next buf block
uint nextLineIndentation = 0;
bool nextLineIndentationValid=true;
indentContinueNextWhitespace=false;
if ((current_line+1) < buf->lines())
{
if (buf->line(current_line+1)->firstChar() == -1)
{
nextLineIndentation = iDepth;
indentContinueNextWhitespace=true;
}
else
nextLineIndentation = buf->line(current_line+1)->indentDepth(m_tabWidth);
}
else
{
KateBufBlock *blk = buf->next();
if (blk && (blk->lines() > 0))
{
if (blk->line (0)->firstChar() == -1)
{
nextLineIndentation = iDepth;
indentContinueNextWhitespace=true;
}
else
nextLineIndentation = blk->line (0)->indentDepth(m_tabWidth);
}
else nextLineIndentationValid=false;
}
if (!textLine->noIndentBasedFoldingAtStart()) {
if ((iDepth > 0) && (indentDepth.isEmpty() || (indentDepth[indentDepth.size()-1] < iDepth)))
{
kdDebug(13020)<<"adding depth to \"stack\":"<<iDepth<<endl;
indentDepth.resize (indentDepth.size()+1, TQGArray::SpeedOptim);
indentDepth[indentDepth.size()-1] = iDepth;
} else {
if (!indentDepth.isEmpty())
{
for (int z=indentDepth.size()-1; z > -1; z--)
if (indentDepth[z]>iDepth)
indentDepth.resize(z, TQGArray::SpeedOptim);
if ((iDepth > 0) && (indentDepth.isEmpty() || (indentDepth[indentDepth.size()-1] < iDepth)))
{
kdDebug(13020)<<"adding depth to \"stack\":"<<iDepth<<endl;
indentDepth.resize (indentDepth.size()+1, TQGArray::SpeedOptim);
indentDepth[indentDepth.size()-1] = iDepth;
if (prevLine->firstChar()==-1) {
}
}
}
}
}
if (!textLine->noIndentBasedFolding())
{
if (nextLineIndentationValid)
{
//if (textLine->firstChar()!=-1)
{
kdDebug(13020)<<"nextLineIndentation:"<<nextLineIndentation<<endl;
bool addindent=false;
uint deindent=0;
if (!indentDepth.isEmpty())
kdDebug()<<"indentDepth[indentDepth.size()-1]:"<<indentDepth[indentDepth.size()-1]<<endl;
if ((nextLineIndentation>0) && ( indentDepth.isEmpty() || (indentDepth[indentDepth.size()-1]<nextLineIndentation)))
{
kdDebug(13020)<<"addindent==true"<<endl;
addindent=true;
} else {
if ((!indentDepth.isEmpty()) && (indentDepth[indentDepth.size()-1]>nextLineIndentation))
{
kdDebug(13020)<<"...."<<endl;
for (int z=indentDepth.size()-1; z > -1; z--)
{
kdDebug(13020)<<indentDepth[z]<<" "<<nextLineIndentation<<endl;
if (indentDepth[z]>nextLineIndentation)
deindent++;
}
}
}
/* }
if (textLine->noIndentBasedFolding()) kdDebug(13020)<<"=============================indentation based folding disabled======================"<<endl;
if (!textLine->noIndentBasedFolding()) {*/
if ((textLine->firstChar()==-1)) {
updatePreviousNotEmptyLine(buf,current_line,addindent,deindent);
codeFoldingUpdate=true;
}
else
{
addIndentBasedFoldingInformation(foldingList,addindent,deindent);
}
}
}
}
indentChanged = !(indentDepth == textLine->indentationDepthArray());
// assign the new array to the textline !
if (indentChanged)
textLine->setIndentationDepth (indentDepth);
indentContinueWhitespace=textLine->firstChar()==-1;
}
bool foldingColChanged=false;
bool foldingChanged = false; //!(foldingList == textLine->foldingListArray());
if (foldingList.size()!=textLine->foldingListArray().size()) {
foldingChanged=true;
} else {
TQMemArray<uint>::ConstIterator it=foldingList.begin();
TQMemArray<uint>::ConstIterator it1=textLine->foldingListArray();
bool markerType=true;
for(;it!=foldingList.end();++it,++it1) {
if (markerType) {
if ( ((*it)!=(*it1))) {
foldingChanged=true;
foldingColChanged=false;
break;
}
} else {
if ((*it)!=(*it1)) {
foldingColChanged=true;
}
}
markerType=!markerType;
}
}
if (foldingChanged || foldingColChanged) {
textLine->setFoldingList(foldingList);
if (foldingChanged==false){
textLine->setFoldingColumnsOutdated(textLine->foldingColumnsOutdated() | foldingColChanged);
} else textLine->setFoldingColumnsOutdated(false);
}
bool retVal_folding = false;
//perhaps make en enums out of the change flags
m_regionTree.updateLine (current_line + buf->startLine(), &foldingList, &retVal_folding, foldingChanged,foldingColChanged);
codeFoldingUpdate = codeFoldingUpdate | retVal_folding;
// need we to continue ?
stillcontinue = ctxChanged || indentChanged || indentContinueWhitespace || indentContinueNextWhitespace;
// move around the lines
prevLine = textLine;
// increment line
current_line++;
}
buf->markDirty ();
// tag the changed lines !
if (invalidate)
emit tagLines (startLine, current_line + buf->startLine());
// emit that we have changed the folding
if (codeFoldingUpdate)
emit codeFoldingUpdated();
//kdDebug (13020) << "HIGHLIGHTED END --- NEED HL, LINESTART: " << startLine << " LINEEND: " << endLine << endl;
//kdDebug (13020) << "HL UNTIL LINE: " << m_lineHighlighted << " MAX: " << m_lineHighlightedMax << endl;
//kdDebug (13020) << "HL DYN COUNT: " << KateHlManager::self()->countDynamicCtxs() << " MAX: " << m_maxDynamicContexts << endl;
//kdDebug (13020) << "TIME TAKEN: " << t.elapsed() << endl;
// if we are at the last line of the block + we still need to continue
// return the need of that !
return stillcontinue && ((current_line+1) == buf->lines());
}
void KateBuffer::codeFoldingColumnUpdate(unsigned int lineNr) {
KateTextLine::Ptr line=plainLine(lineNr);
if (!line) return;
if (line->foldingColumnsOutdated()) {
line->setFoldingColumnsOutdated(false);
bool tmp;
TQMemArray<uint> folding=line->foldingListArray();
m_regionTree.updateLine(lineNr,&folding,&tmp,true,false);
}
}
//BEGIN KateBufBlock
KateBufBlock::KateBufBlock ( KateBuffer *parent, KateBufBlock *prev, KateBufBlock *next,
KateFileLoader *stream )
: m_state (KateBufBlock::stateDirty),
m_startLine (0),
m_lines (0),
m_vmblock (0),
m_vmblockSize (0),
m_parent (parent),
m_prev (prev),
m_next (next),
list (0),
listPrev (0),
listNext (0)
{
// init startline + the next pointers of the neighbour blocks
if (m_prev)
{
m_startLine = m_prev->endLine ();
m_prev->m_next = this;
}
if (m_next)
m_next->m_prev = this;
// we have a stream, use it to fill the block !
// this can lead to 0 line blocks which are invalid !
if (stream)
{
// this we lead to either dirty or swapped state
fillBlock (stream);
}
else // init the block if no stream given !
{
// fill in one empty line !
KateTextLine::Ptr textLine = new KateTextLine ();
m_stringList.push_back (textLine);
m_lines++;
// if we have allready enough blocks around, swap one
if (m_parent->m_loadedBlocks.count() >= KateBuffer::maxLoadedBlocks())
m_parent->m_loadedBlocks.first()->swapOut();
// we are a new nearly empty dirty block
m_state = KateBufBlock::stateDirty;
m_parent->m_loadedBlocks.append (this);
}
}
KateBufBlock::~KateBufBlock ()
{
// sync prev/next pointers
if (m_prev)
m_prev->m_next = m_next;
if (m_next)
m_next->m_prev = m_prev;
// if we have some swapped data allocated, free it now or never
if (m_vmblock)
KateFactory::self()->vm()->free(m_vmblock);
// remove me from the list I belong
KateBufBlockList::remove (this);
}
void KateBufBlock::fillBlock (KateFileLoader *stream)
{
// is allready too much stuff around in mem ?
bool swap = m_parent->m_loadedBlocks.count() >= KateBuffer::maxLoadedBlocks();
TQByteArray rawData;
// calcs the approx size for KATE_AVG_BLOCK_SIZE chars !
if (swap)
rawData.resize ((KATE_AVG_BLOCK_SIZE * sizeof(TQChar)) + ((KATE_AVG_BLOCK_SIZE/80) * 8));
char *buf = rawData.data ();
uint size = 0;
uint blockSize = 0;
while (!stream->eof() && (blockSize < KATE_AVG_BLOCK_SIZE) && (m_lines < KATE_MAX_BLOCK_LINES))
{
uint offset = 0, length = 0;
stream->readLine(offset, length);
const TQChar *unicodeData = stream->unicode () + offset;
// strip spaces at end of line
if ( stream->removeTrailingSpaces() )
{
while (length > 0)
{
if (unicodeData[length-1].isSpace())
--length;
else
break;
}
}
blockSize += length;
if (swap)
{
// create the swapped data on the fly, no need to waste time
// via going over the textline classes and dump them !
char attr = KateTextLine::flagNoOtherData;
uint pos = size;
// calc new size
size = size + 1 + sizeof(uint) + (sizeof(TQChar)*length);
if (size > rawData.size ())
{
rawData.resize (size);
buf = rawData.data ();
}
memcpy(buf+pos, (char *) &attr, 1);
pos += 1;
memcpy(buf+pos, (char *) &length, sizeof(uint));
pos += sizeof(uint);
memcpy(buf+pos, (char *) unicodeData, sizeof(TQChar)*length);
pos += sizeof(TQChar)*length;
}
else
{
KateTextLine::Ptr textLine = new KateTextLine ();
textLine->insertText (0, length, unicodeData);
m_stringList.push_back (textLine);
}
m_lines++;
}
if (swap)
{
m_vmblock = KateFactory::self()->vm()->allocate(size);
m_vmblockSize = size;
if (!rawData.isEmpty())
{
if (!KateFactory::self()->vm()->copyBlock(m_vmblock, rawData.data(), 0, size))
{
if (m_vmblock)
KateFactory::self()->vm()->free(m_vmblock);
m_vmblock = 0;
m_vmblockSize = 0;
m_parent->m_cacheWriteError = true;
}
}
// fine, we are swapped !
m_state = KateBufBlock::stateSwapped;
}
else
{
// we are a new dirty block without any swap data
m_state = KateBufBlock::stateDirty;
m_parent->m_loadedBlocks.append (this);
}
kdDebug (13020) << "A BLOCK LOADED WITH LINES: " << m_lines << endl;
}
KateTextLine::Ptr KateBufBlock::line(uint i)
{
// take care that the string list is around !!!
if (m_state == KateBufBlock::stateSwapped)
swapIn ();
// LRU
if (!m_parent->m_loadedBlocks.isLast(this))
m_parent->m_loadedBlocks.append (this);
return m_stringList[i];
}
void KateBufBlock::insertLine(uint i, KateTextLine::Ptr line)
{
// take care that the string list is around !!!
if (m_state == KateBufBlock::stateSwapped)
swapIn ();
m_stringList.insert (m_stringList.begin()+i, line);
m_lines++;
markDirty ();
}
void KateBufBlock::removeLine(uint i)
{
// take care that the string list is around !!!
if (m_state == KateBufBlock::stateSwapped)
swapIn ();
m_stringList.erase (m_stringList.begin()+i);
m_lines--;
markDirty ();
}
void KateBufBlock::markDirty ()
{
if (m_state != KateBufBlock::stateSwapped)
{
// LRU
if (!m_parent->m_loadedBlocks.isLast(this))
m_parent->m_loadedBlocks.append (this);
if (m_state == KateBufBlock::stateClean)
{
// if we have some swapped data allocated which is dirty, free it now
if (m_vmblock)
KateFactory::self()->vm()->free(m_vmblock);
m_vmblock = 0;
m_vmblockSize = 0;
// we are dirty
m_state = KateBufBlock::stateDirty;
}
}
}
void KateBufBlock::swapIn ()
{
if (m_state != KateBufBlock::stateSwapped)
return;
TQByteArray rawData (m_vmblockSize);
// what to do if that fails ?
if (!KateFactory::self()->vm()->copyBlock(rawData.data(), m_vmblock, 0, rawData.size()))
m_parent->m_cacheReadError = true;
// reserve mem, keep realloc away on push_back
m_stringList.reserve (m_lines);
char *buf = rawData.data();
for (uint i=0; i < m_lines; i++)
{
KateTextLine::Ptr textLine = new KateTextLine ();
buf = textLine->restore (buf);
m_stringList.push_back (textLine);
}
// if we have allready enough blocks around, swap one
if (m_parent->m_loadedBlocks.count() >= KateBuffer::maxLoadedBlocks())
m_parent->m_loadedBlocks.first()->swapOut();
// fine, we are now clean again, save state + append to clean list
m_state = KateBufBlock::stateClean;
m_parent->m_loadedBlocks.append (this);
}
void KateBufBlock::swapOut ()
{
if (m_state == KateBufBlock::stateSwapped)
return;
if (m_state == KateBufBlock::stateDirty)
{
bool haveHl = m_parent->m_highlight && !m_parent->m_highlight->noHighlighting();
// Calculate size.
uint size = 0;
for (uint i=0; i < m_lines; i++)
size += m_stringList[i]->dumpSize (haveHl);
TQByteArray rawData (size);
char *buf = rawData.data();
// Dump textlines
for (uint i=0; i < m_lines; i++)
buf = m_stringList[i]->dump (buf, haveHl);
m_vmblock = KateFactory::self()->vm()->allocate(rawData.size());
m_vmblockSize = rawData.size();
if (!rawData.isEmpty())
{
if (!KateFactory::self()->vm()->copyBlock(m_vmblock, rawData.data(), 0, rawData.size()))
{
if (m_vmblock)
KateFactory::self()->vm()->free(m_vmblock);
m_vmblock = 0;
m_vmblockSize = 0;
m_parent->m_cacheWriteError = true;
return;
}
}
}
m_stringList.clear();
// we are now swapped out, set state + remove us out of the lists !
m_state = KateBufBlock::stateSwapped;
KateBufBlockList::remove (this);
}
//END KateBufBlock
//BEGIN KateBufBlockList
KateBufBlockList::KateBufBlockList ()
: m_count (0),
m_first (0),
m_last (0)
{
}
void KateBufBlockList::append (KateBufBlock *buf)
{
if (buf->list)
buf->list->removeInternal (buf);
m_count++;
// append a element
if (m_last)
{
m_last->listNext = buf;
buf->listPrev = m_last;
buf->listNext = 0;
m_last = buf;
buf->list = this;
return;
}
// insert the first element
m_last = buf;
m_first = buf;
buf->listPrev = 0;
buf->listNext = 0;
buf->list = this;
}
void KateBufBlockList::removeInternal (KateBufBlock *buf)
{
if (buf->list != this)
return;
m_count--;
if ((buf == m_first) && (buf == m_last))
{
// last element removed !
m_first = 0;
m_last = 0;
}
else if (buf == m_first)
{
// first element removed
m_first = buf->listNext;
m_first->listPrev = 0;
}
else if (buf == m_last)
{
// last element removed
m_last = buf->listPrev;
m_last->listNext = 0;
}
else
{
buf->listPrev->listNext = buf->listNext;
buf->listNext->listPrev = buf->listPrev;
}
buf->listPrev = 0;
buf->listNext = 0;
buf->list = 0;
}
//END KateBufBlockList
// kate: space-indent on; indent-width 2; replace-tabs on;