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tdelibs/kate/part/kateviewinternal.cpp

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/* This file is part of the KDE libraries
Copyright (C) 2002 John Firebaugh <jfirebaugh@kde.org>
Copyright (C) 2002 Joseph Wenninger <jowenn@kde.org>
Copyright (C) 2002,2003 Christoph Cullmann <cullmann@kde.org>
Copyright (C) 2002,2003 Hamish Rodda <rodda@kde.org>
Copyright (C) 2003 Anakim Border <aborder@sources.sourceforge.net>
Based on:
KWriteView : Copyright (C) 1999 Jochen Wilhelmy <digisnap@cs.tu-berlin.de>
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 "kateviewinternal.h"
#include "kateviewinternal.moc"
#include "kateview.h"
#include "katecodefoldinghelpers.h"
#include "kateviewhelpers.h"
#include "katehighlight.h"
#include "katesupercursor.h"
#include "katerenderer.h"
#include "katecodecompletion.h"
#include "kateconfig.h"
#include <kcursor.h>
#include <kdebug.h>
#include <tdeapplication.h>
#include <tdeglobalsettings.h>
#include <kurldrag.h>
#include <tqstyle.h>
#include <tqdragobject.h>
#include <tqpopupmenu.h>
#include <tqdropsite.h>
#include <tqpainter.h>
#include <tqlayout.h>
#include <tqclipboard.h>
#include <tqpixmap.h>
#include <tqvbox.h>
KateViewInternal::KateViewInternal(KateView *view, KateDocument *doc)
: TQWidget (view, "", (WFlags)(WStaticContents | WRepaintNoErase | WResizeNoErase) )
, editSessionNumber (0)
, editIsRunning (false)
, m_view (view)
, m_doc (doc)
, cursor (doc, true, 0, 0, TQT_TQOBJECT(this))
, possibleTripleClick (false)
, m_dummy (0)
, m_startPos(doc, true, 0,0)
, m_madeVisible(false)
, m_shiftKeyPressed (false)
, m_autoCenterLines (false)
, m_selChangedByUser (false)
, selectAnchor (-1, -1)
, m_selectionMode( Default )
, m_preserveMaxX(false)
, m_currentMaxX(0)
, m_usePlainLines(false)
, m_updatingView(true)
, m_cachedMaxStartPos(-1, -1)
, m_dragScrollTimer(this)
, m_scrollTimer (this)
, m_cursorTimer (this)
, m_textHintTimer (this)
, m_textHintEnabled(false)
, m_textHintMouseX(-1)
, m_textHintMouseY(-1)
, m_imPreeditStartLine(0)
, m_imPreeditStart(0)
, m_imPreeditLength(0)
, m_imPreeditSelStart(0)
{
setMinimumSize (0,0);
// cursor
cursor.setMoveOnInsert (true);
// invalidate selStartCached, or keyb selection is screwed initially
selStartCached.setLine( -1 );
//
// scrollbar for lines
//
m_lineScroll = new KateScrollBar(Qt::Vertical, this);
m_lineScroll->show();
m_lineScroll->setTracking (true);
m_lineLayout = new TQVBoxLayout();
m_colLayout = new TQHBoxLayout();
m_colLayout->addWidget(m_lineScroll);
m_lineLayout->addLayout(m_colLayout);
// bottom corner box
m_dummy = new TQWidget(m_view);
m_dummy->setFixedHeight(style().scrollBarExtent().width());
if (m_view->dynWordWrap())
m_dummy->hide();
else
m_dummy->show();
m_lineLayout->addWidget(m_dummy);
// Hijack the line scroller's controls, so we can scroll nicely for word-wrap
connect(m_lineScroll, TQT_SIGNAL(prevPage()), TQT_SLOT(scrollPrevPage()));
connect(m_lineScroll, TQT_SIGNAL(nextPage()), TQT_SLOT(scrollNextPage()));
connect(m_lineScroll, TQT_SIGNAL(prevLine()), TQT_SLOT(scrollPrevLine()));
connect(m_lineScroll, TQT_SIGNAL(nextLine()), TQT_SLOT(scrollNextLine()));
connect(m_lineScroll, TQT_SIGNAL(sliderMoved(int)), TQT_SLOT(scrollLines(int)));
connect(m_lineScroll, TQT_SIGNAL(sliderMMBMoved(int)), TQT_SLOT(scrollLines(int)));
// catch wheel events, completing the hijack
m_lineScroll->installEventFilter(this);
//
// scrollbar for columns
//
m_columnScroll = new TQScrollBar(Qt::Horizontal,m_view);
// hide the column scrollbar in the dynamic word wrap mode
if (m_view->dynWordWrap())
m_columnScroll->hide();
else
m_columnScroll->show();
m_columnScroll->setTracking(true);
m_startX = 0;
connect( m_columnScroll, TQT_SIGNAL( valueChanged (int) ),
this, TQT_SLOT( scrollColumns (int) ) );
//
// iconborder ;)
//
leftBorder = new KateIconBorder( this, m_view );
leftBorder->show ();
connect( leftBorder, TQT_SIGNAL(toggleRegionVisibility(unsigned int)),
m_doc->foldingTree(), TQT_SLOT(toggleRegionVisibility(unsigned int)));
connect( doc->foldingTree(), TQT_SIGNAL(regionVisibilityChangedAt(unsigned int)),
this, TQT_SLOT(slotRegionVisibilityChangedAt(unsigned int)));
connect( doc, TQT_SIGNAL(codeFoldingUpdated()),
this, TQT_SLOT(slotCodeFoldingChanged()) );
displayCursor.setPos(0, 0);
cursor.setPos(0, 0);
cXPos = 0;
setAcceptDrops( true );
setBackgroundMode( NoBackground );
// event filter
installEventFilter(this);
// im
setInputMethodEnabled(true);
// set initial cursor
setCursor( KCursor::ibeamCursor() );
m_mouseCursor = TQt::IbeamCursor;
// call mouseMoveEvent also if no mouse button is pressed
setMouseTracking(true);
dragInfo.state = diNone;
// timers
connect( &m_dragScrollTimer, TQT_SIGNAL( timeout() ),
this, TQT_SLOT( doDragScroll() ) );
connect( &m_scrollTimer, TQT_SIGNAL( timeout() ),
this, TQT_SLOT( scrollTimeout() ) );
connect( &m_cursorTimer, TQT_SIGNAL( timeout() ),
this, TQT_SLOT( cursorTimeout() ) );
connect( &m_textHintTimer, TQT_SIGNAL( timeout() ),
this, TQT_SLOT( textHintTimeout() ) );
// selection changed to set anchor
connect( m_view, TQT_SIGNAL( selectionChanged() ),
this, TQT_SLOT( viewSelectionChanged() ) );
// this is a work arround for RTL desktops
// should be changed in kde 3.3
// BTW: this comment has been "ported" from 3.1.X tree
// any hacker with BIDI knowlege is welcomed to fix kate problems :)
if (TQApplication::reverseLayout()){
m_view->m_grid->addMultiCellWidget(leftBorder, 0, 1, 2, 2);
m_view->m_grid->addMultiCellWidget(m_columnScroll, 1, 1, 0, 1);
m_view->m_grid->addMultiCellLayout(m_lineLayout, 0, 0, 0, 0);
}
else{
m_view->m_grid->addMultiCellLayout(m_lineLayout, 0, 1, 2, 2);
m_view->m_grid->addMultiCellWidget(m_columnScroll, 1, 1, 0, 1);
m_view->m_grid->addWidget(leftBorder, 0, 0);
}
updateView ();
}
KateViewInternal::~KateViewInternal ()
{
}
void KateViewInternal::prepareForDynWrapChange()
{
// Which is the current view line?
m_wrapChangeViewLine = displayViewLine(displayCursor, true);
}
void KateViewInternal::dynWrapChanged()
{
if (m_view->dynWordWrap())
{
m_columnScroll->hide();
m_dummy->hide ();
}
else
{
m_columnScroll->show();
m_dummy->show ();
}
tagAll();
updateView();
if (m_view->dynWordWrap())
scrollColumns(0);
// Determine where the cursor should be to get the cursor on the same view line
if (m_wrapChangeViewLine != -1) {
KateTextCursor newStart = viewLineOffset(displayCursor, -m_wrapChangeViewLine);
makeVisible(newStart, newStart.col(), true);
} else {
update();
}
}
KateTextCursor KateViewInternal::endPos() const
{
int viewLines = linesDisplayed() - 1;
if (viewLines < 0) {
kdDebug(13030) << "WARNING: viewLines wrong!" << endl;
viewLines = 0;
}
// Check to make sure that lineRanges isn't invalid
if (!lineRanges.count() || lineRanges[0].line == -1 || viewLines >= (int)lineRanges.count()) {
// Switch off use of the cache
return KateTextCursor(m_doc->numVisLines() - 1, m_doc->lineLength(m_doc->getRealLine(m_doc->numVisLines() - 1)));
}
for (int i = viewLines; i >= 0; i--) {
KateLineRange& thisRange = lineRanges[i];
if (thisRange.line == -1) continue;
if (thisRange.virtualLine >= (int)m_doc->numVisLines()) {
// Cache is too out of date
return KateTextCursor(m_doc->numVisLines() - 1, m_doc->lineLength(m_doc->getRealLine(m_doc->numVisLines() - 1)));
}
return KateTextCursor(thisRange.virtualLine, thisRange.wrap ? thisRange.endCol - 1 : thisRange.endCol);
}
Q_ASSERT(false);
kdDebug(13030) << "WARNING: could not find a lineRange at all" << endl;
return KateTextCursor(-1, -1);
}
uint KateViewInternal::endLine() const
{
return endPos().line();
}
KateLineRange KateViewInternal::yToKateLineRange(uint y) const
{
uint range = y / m_view->renderer()->fontHeight();
// lineRanges is always bigger than 0, after the initial updateView call
if (range >= lineRanges.size())
return lineRanges[lineRanges.size()-1];
return lineRanges[range];
}
int KateViewInternal::lineToY(uint viewLine) const
{
return (viewLine-startLine()) * m_view->renderer()->fontHeight();
}
void KateViewInternal::slotIncFontSizes()
{
m_view->renderer()->increaseFontSizes();
}
void KateViewInternal::slotDecFontSizes()
{
m_view->renderer()->decreaseFontSizes();
}
/**
* Line is the real line number to scroll to.
*/
void KateViewInternal::scrollLines ( int line )
{
KateTextCursor newPos(line, 0);
scrollPos(newPos);
}
// This can scroll less than one true line
void KateViewInternal::scrollViewLines(int offset)
{
KateTextCursor c = viewLineOffset(startPos(), offset);
scrollPos(c);
m_lineScroll->blockSignals(true);
m_lineScroll->setValue(startLine());
m_lineScroll->blockSignals(false);
}
void KateViewInternal::scrollNextPage()
{
scrollViewLines(kMax( (int)linesDisplayed() - 1, 0 ));
}
void KateViewInternal::scrollPrevPage()
{
scrollViewLines(-kMax( (int)linesDisplayed() - 1, 0 ));
}
void KateViewInternal::scrollPrevLine()
{
scrollViewLines(-1);
}
void KateViewInternal::scrollNextLine()
{
scrollViewLines(1);
}
KateTextCursor KateViewInternal::maxStartPos(bool changed)
{
m_usePlainLines = true;
if (m_cachedMaxStartPos.line() == -1 || changed)
{
KateTextCursor end(m_doc->numVisLines() - 1, m_doc->lineLength(m_doc->getRealLine(m_doc->numVisLines() - 1)));
m_cachedMaxStartPos = viewLineOffset(end, -((int)linesDisplayed() - 1));
}
m_usePlainLines = false;
return m_cachedMaxStartPos;
}
// c is a virtual cursor
void KateViewInternal::scrollPos(KateTextCursor& c, bool force, bool calledExternally)
{
if (!force && ((!m_view->dynWordWrap() && c.line() == (int)startLine()) || c == startPos()))
return;
if (c.line() < 0)
c.setLine(0);
KateTextCursor limit = maxStartPos();
if (c > limit) {
c = limit;
// Re-check we're not just scrolling to the same place
if (!force && ((!m_view->dynWordWrap() && c.line() == (int)startLine()) || c == startPos()))
return;
}
int viewLinesScrolled = 0;
// only calculate if this is really used and usefull, could be wrong here, please recheck
// for larger scrolls this makes 2-4 seconds difference on my xeon with dyn. word wrap on
// try to get it really working ;)
bool viewLinesScrolledUsable = !force
&& (c.line() >= (int)startLine()-(int)linesDisplayed()-1)
&& (c.line() <= (int)endLine()+(int)linesDisplayed()+1);
if (viewLinesScrolledUsable)
viewLinesScrolled = displayViewLine(c);
m_startPos.setPos(c);
// set false here but reversed if we return to makeVisible
m_madeVisible = false;
if (viewLinesScrolledUsable)
{
int lines = linesDisplayed();
if ((int)m_doc->numVisLines() < lines) {
KateTextCursor end(m_doc->numVisLines() - 1, m_doc->lineLength(m_doc->getRealLine(m_doc->numVisLines() - 1)));
lines = kMin((int)linesDisplayed(), displayViewLine(end) + 1);
}
Q_ASSERT(lines >= 0);
if (!calledExternally && QABS(viewLinesScrolled) < lines)
{
updateView(false, viewLinesScrolled);
int scrollHeight = -(viewLinesScrolled * (int)m_view->renderer()->fontHeight());
int scrollbarWidth = style().scrollBarExtent().width();
//
// updates are for working around the scrollbar leaving blocks in the view
//
scroll(0, scrollHeight);
update(0, height()+scrollHeight-scrollbarWidth, width(), 2*scrollbarWidth);
leftBorder->scroll(0, scrollHeight);
leftBorder->update(0, leftBorder->height()+scrollHeight-scrollbarWidth, leftBorder->width(), 2*scrollbarWidth);
return;
}
}
updateView();
update();
leftBorder->update();
}
void KateViewInternal::scrollColumns ( int x )
{
if (x == m_startX)
return;
if (x < 0)
x = 0;
int dx = m_startX - x;
m_startX = x;
if (QABS(dx) < width())
scroll(dx, 0);
else
update();
m_columnScroll->blockSignals(true);
m_columnScroll->setValue(m_startX);
m_columnScroll->blockSignals(false);
}
// If changed is true, the lines that have been set dirty have been updated.
void KateViewInternal::updateView(bool changed, int viewLinesScrolled)
{
m_updatingView = true;
uint contentLines = m_doc->visibleLines();
m_lineScroll->blockSignals(true);
KateTextCursor maxStart = maxStartPos(changed);
int maxLineScrollRange = maxStart.line();
if (m_view->dynWordWrap() && maxStart.col() != 0)
maxLineScrollRange++;
m_lineScroll->setRange(0, maxLineScrollRange);
m_lineScroll->setValue(startPos().line());
m_lineScroll->setSteps(1, height() / m_view->renderer()->fontHeight());
m_lineScroll->blockSignals(false);
uint oldSize = lineRanges.size ();
uint newSize = (height() / m_view->renderer()->fontHeight()) + 1;
if (oldSize != newSize) {
lineRanges.resize((height() / m_view->renderer()->fontHeight()) + 1);
if (newSize > oldSize) {
static KateLineRange blank;
for (uint i = oldSize; i < newSize; i++) {
lineRanges[i] = blank;
}
}
}
if (oldSize < lineRanges.size ())
{
for (uint i=oldSize; i < lineRanges.size(); i++)
lineRanges[i].dirty = true;
}
// Move the lineRanges data if we've just scrolled...
if (viewLinesScrolled != 0) {
// loop backwards if we've just scrolled up...
bool forwards = viewLinesScrolled >= 0 ? true : false;
for (uint z = forwards ? 0 : lineRanges.count() - 1; z < lineRanges.count(); forwards ? z++ : z--) {
uint oldZ = z + viewLinesScrolled;
if (oldZ < lineRanges.count()) {
lineRanges[z] = lineRanges[oldZ];
} else {
lineRanges[z].dirty = true;
}
}
}
if (m_view->dynWordWrap())
{
KateTextCursor realStart = startPos();
realStart.setLine(m_doc->getRealLine(realStart.line()));
KateLineRange startRange = range(realStart);
uint line = startRange.virtualLine;
int realLine = startRange.line;
uint oldLine = line;
int startCol = startRange.startCol;
int startX = startRange.startX;
int endX = startRange.startX;
int shiftX = startRange.startCol ? startRange.shiftX : 0;
bool wrap = false;
int newViewLine = startRange.viewLine;
// z is the current display view line
KateTextLine::Ptr text = textLine(realLine);
bool alreadyDirty = false;
for (uint z = 0; z < lineRanges.size(); z++)
{
if (oldLine != line) {
realLine = (int)m_doc->getRealLine(line);
if (z)
lineRanges[z-1].startsInvisibleBlock = (realLine != lineRanges[z-1].line + 1);
text = textLine(realLine);
startCol = 0;
startX = 0;
endX = 0;
shiftX = 0;
newViewLine = 0;
oldLine = line;
}
if (line >= contentLines || !text)
{
if (lineRanges[z].line != -1)
lineRanges[z].dirty = true;
lineRanges[z].clear();
line++;
}
else
{
if (lineRanges[z].line != realLine || lineRanges[z].startCol != startCol)
alreadyDirty = lineRanges[z].dirty = true;
if (lineRanges[z].dirty || changed || alreadyDirty) {
alreadyDirty = true;
lineRanges[z].virtualLine = line;
lineRanges[z].line = realLine;
lineRanges[z].startsInvisibleBlock = false;
int tempEndX = 0;
int endCol = m_view->renderer()->textWidth(text, startCol, width() - shiftX, &wrap, &tempEndX);
endX += tempEndX;
if (wrap)
{
if (m_view->config()->dynWordWrapAlignIndent() > 0)
{
if (startX == 0)
{
int pos = text->nextNonSpaceChar(0);
if (pos > 0)
shiftX = m_view->renderer()->textWidth(text, pos);
if (shiftX > ((double)width() / 100 * m_view->config()->dynWordWrapAlignIndent()))
shiftX = 0;
}
}
if ((lineRanges[z].startX != startX) || (lineRanges[z].endX != endX) ||
(lineRanges[z].startCol != startCol) || (lineRanges[z].endCol != endCol) ||
(lineRanges[z].shiftX != shiftX))
lineRanges[z].dirty = true;
lineRanges[z].startCol = startCol;
lineRanges[z].endCol = endCol;
lineRanges[z].startX = startX;
lineRanges[z].endX = endX;
lineRanges[z].viewLine = newViewLine;
lineRanges[z].wrap = true;
startCol = endCol;
startX = endX;
}
else
{
if ((lineRanges[z].startX != startX) || (lineRanges[z].endX != endX) ||
(lineRanges[z].startCol != startCol) || (lineRanges[z].endCol != endCol))
lineRanges[z].dirty = true;
lineRanges[z].startCol = startCol;
lineRanges[z].endCol = endCol;
lineRanges[z].startX = startX;
lineRanges[z].endX = endX;
lineRanges[z].viewLine = newViewLine;
lineRanges[z].wrap = false;
line++;
}
lineRanges[z].shiftX = shiftX;
} else {
// The cached data is still intact
if (lineRanges[z].wrap) {
startCol = lineRanges[z].endCol;
startX = lineRanges[z].endX;
endX = lineRanges[z].endX;
} else {
line++;
}
shiftX = lineRanges[z].shiftX;
}
}
newViewLine++;
}
}
else
{
uint z = 0;
for(; (z + startLine() < contentLines) && (z < lineRanges.size()); z++)
{
if (lineRanges[z].dirty || lineRanges[z].line != (int)m_doc->getRealLine(z + startLine())) {
lineRanges[z].dirty = true;
lineRanges[z].line = m_doc->getRealLine( z + startLine() );
if (z)
lineRanges[z-1].startsInvisibleBlock = (lineRanges[z].line != lineRanges[z-1].line + 1);
lineRanges[z].virtualLine = z + startLine();
lineRanges[z].startCol = 0;
lineRanges[z].endCol = m_doc->lineLength(lineRanges[z].line);
lineRanges[z].startX = 0;
lineRanges[z].endX = m_view->renderer()->textWidth( textLine( lineRanges[z].line ), -1 );
lineRanges[z].shiftX = 0;
lineRanges[z].viewLine = 0;
lineRanges[z].wrap = false;
}
else if (z && lineRanges[z-1].dirty)
{
lineRanges[z-1].startsInvisibleBlock = (lineRanges[z].line != lineRanges[z-1].line + 1);
}
}
for (; z < lineRanges.size(); z++)
{
if (lineRanges[z].line != -1)
lineRanges[z].dirty = true;
lineRanges[z].clear();
}
int max = maxLen(startLine()) - width();
if (max < 0)
max = 0;
// if we lose the ability to scroll horizontally, move view to the far-left
if (max == 0)
{
scrollColumns(0);
}
m_columnScroll->blockSignals(true);
// disable scrollbar
m_columnScroll->setDisabled (max == 0);
m_columnScroll->setRange(0, max);
m_columnScroll->setValue(m_startX);
// Approximate linescroll
m_columnScroll->setSteps(m_view->renderer()->config()->fontMetrics()->width('a'), width());
m_columnScroll->blockSignals(false);
}
m_updatingView = false;
if (changed)
paintText(0, 0, width(), height(), true);
}
void KateViewInternal::paintText (int x, int y, int width, int height, bool paintOnlyDirty)
{
//kdDebug() << k_funcinfo << x << " " << y << " " << width << " " << height << " " << paintOnlyDirty << endl;
int xStart = startX() + x;
int xEnd = xStart + width;
uint h = m_view->renderer()->fontHeight();
uint startz = (y / h);
uint endz = startz + 1 + (height / h);
uint lineRangesSize = lineRanges.size();
static TQPixmap drawBuffer;
if (drawBuffer.width() < KateViewInternal::width() || drawBuffer.height() < (int)h)
drawBuffer.resize(KateViewInternal::width(), (int)h);
if (drawBuffer.isNull())
return;
TQPainter paint(this);
TQPainter paintDrawBuffer(&drawBuffer);
// TODO put in the proper places
m_view->renderer()->setCaretStyle(m_view->isOverwriteMode() ? KateRenderer::Replace : KateRenderer::Insert);
m_view->renderer()->setShowTabs(m_doc->configFlags() & KateDocument::cfShowTabs);
for (uint z=startz; z <= endz; z++)
{
if ( (z >= lineRangesSize) || ((lineRanges[z].line == -1) && (!paintOnlyDirty || lineRanges[z].dirty)) )
{
if (!(z >= lineRangesSize))
lineRanges[z].dirty = false;
paint.fillRect( x, z * h, width, h, m_view->renderer()->config()->backgroundColor() );
}
else if (!paintOnlyDirty || lineRanges[z].dirty)
{
lineRanges[z].dirty = false;
m_view->renderer()->paintTextLine(paintDrawBuffer, &lineRanges[z], xStart, xEnd, &cursor, &bm);
paint.drawPixmap (x, z * h, drawBuffer, 0, 0, width, h);
}
}
}
/**
* this function ensures a certain location is visible on the screen.
* if endCol is -1, ignore making the columns visible.
*/
void KateViewInternal::makeVisible (const KateTextCursor& c, uint endCol, bool force, bool center, bool calledExternally)
{
//kdDebug() << "MakeVisible start [" << startPos().line << "," << startPos().col << "] end [" << endPos().line << "," << endPos().col << "] -> request: [" << c.line << "," << c.col << "]" <<endl;// , new start [" << scroll.line << "," << scroll.col << "] lines " << (linesDisplayed() - 1) << " height " << height() << endl;
// if the line is in a folded region, unfold all the way up
//if ( m_doc->foldingTree()->findNodeForLine( c.line )->visible )
// kdDebug()<<"line ("<<c.line<<") should be visible"<<endl;
if ( force )
{
KateTextCursor scroll = c;
scrollPos(scroll, force, calledExternally);
}
else if (center && (c < startPos() || c > endPos()))
{
KateTextCursor scroll = viewLineOffset(c, -int(linesDisplayed()) / 2);
scrollPos(scroll, false, calledExternally);
}
else if ( c > viewLineOffset(endPos(), -m_minLinesVisible) )
{
KateTextCursor scroll = viewLineOffset(c, -((int)linesDisplayed() - m_minLinesVisible - 1));
scrollPos(scroll, false, calledExternally);
}
else if ( c < viewLineOffset(startPos(), m_minLinesVisible) )
{
KateTextCursor scroll = viewLineOffset(c, -m_minLinesVisible);
scrollPos(scroll, false, calledExternally);
}
else
{
// Check to see that we're not showing blank lines
KateTextCursor max = maxStartPos();
if (startPos() > max) {
scrollPos(max, max.col(), calledExternally);
}
}
if (!m_view->dynWordWrap() && endCol != (uint)-1)
{
int sX = (int)m_view->renderer()->textWidth (textLine( m_doc->getRealLine( c.line() ) ), c.col() );
int sXborder = sX-8;
if (sXborder < 0)
sXborder = 0;
if (sX < m_startX)
scrollColumns (sXborder);
else if (sX > m_startX + width())
scrollColumns (sX - width() + 8);
}
m_madeVisible = !force;
}
void KateViewInternal::slotRegionVisibilityChangedAt(unsigned int)
{
kdDebug(13030) << "slotRegionVisibilityChangedAt()" << endl;
m_cachedMaxStartPos.setLine(-1);
KateTextCursor max = maxStartPos();
if (startPos() > max)
scrollPos(max);
updateView();
update();
leftBorder->update();
}
void KateViewInternal::slotCodeFoldingChanged()
{
leftBorder->update();
}
void KateViewInternal::slotRegionBeginEndAddedRemoved(unsigned int)
{
kdDebug(13030) << "slotRegionBeginEndAddedRemoved()" << endl;
// FIXME: performance problem
leftBorder->update();
}
void KateViewInternal::showEvent ( TQShowEvent *e )
{
updateView ();
TQWidget::showEvent (e);
}
uint KateViewInternal::linesDisplayed() const
{
int h = height();
int fh = m_view->renderer()->fontHeight();
return (h - (h % fh)) / fh;
}
TQPoint KateViewInternal::cursorCoordinates()
{
int viewLine = displayViewLine(displayCursor, true);
if (viewLine == -1)
return TQPoint(-1, -1);
uint y = viewLine * m_view->renderer()->fontHeight();
uint x = cXPos - m_startX - lineRanges[viewLine].startX + leftBorder->width() + lineRanges[viewLine].xOffset();
return TQPoint(x, y);
}
void KateViewInternal::updateMicroFocusHint()
{
int line = displayViewLine(displayCursor, true);
/* Check for hasFocus() to avoid crashes in QXIMInputContext as in bug #131266.
This is only a workaround until somebody can find the real reason of the crash
(probably it's in Qt). */
if (line == -1 || !hasFocus())
return;
KateRenderer *renderer = m_view->renderer();
// Cursor placement code is changed for Asian input method that
// shows candidate window. This behavior is same as Qt/E 2.3.7
// which supports Asian input methods. Asian input methods need
// start point of IM selection text to place candidate window as
// adjacent to the selection text.
uint preeditStrLen = renderer->textWidth(textLine(m_imPreeditStartLine), cursor.col()) - renderer->textWidth(textLine(m_imPreeditStartLine), m_imPreeditSelStart);
uint x = cXPos - m_startX - lineRanges[line].startX + lineRanges[line].xOffset() - preeditStrLen;
uint y = line * renderer->fontHeight();
setMicroFocusHint(x, y, 0, renderer->fontHeight());
}
void KateViewInternal::doReturn()
{
KateTextCursor c = cursor;
m_doc->newLine( c, this );
updateCursor( c );
updateView();
}
void KateViewInternal::doDelete()
{
m_doc->del( m_view, cursor );
if (m_view->m_codeCompletion->codeCompletionVisible()) {
m_view->m_codeCompletion->updateBox();
}
}
void KateViewInternal::doBackspace()
{
m_doc->backspace( m_view, cursor );
if (m_view->m_codeCompletion->codeCompletionVisible()) {
m_view->m_codeCompletion->updateBox();
}
}
void KateViewInternal::doTranspose()
{
m_doc->transpose( cursor );
}
void KateViewInternal::doDeleteWordLeft()
{
wordLeft( true );
m_view->removeSelectedText();
update();
}
void KateViewInternal::doDeleteWordRight()
{
wordRight( true );
m_view->removeSelectedText();
update();
}
class CalculatingCursor : public KateTextCursor {
public:
CalculatingCursor(KateViewInternal* vi)
: KateTextCursor()
, m_vi(vi)
{
Q_ASSERT(valid());
}
CalculatingCursor(KateViewInternal* vi, const KateTextCursor& c)
: KateTextCursor(c)
, m_vi(vi)
{
Q_ASSERT(valid());
}
// This one constrains its arguments to valid positions
CalculatingCursor(KateViewInternal* vi, uint line, uint col)
: KateTextCursor(line, col)
, m_vi(vi)
{
makeValid();
}
virtual CalculatingCursor& operator+=( int n ) = 0;
virtual CalculatingCursor& operator-=( int n ) = 0;
CalculatingCursor& operator++() { return operator+=( 1 ); }
CalculatingCursor& operator--() { return operator-=( 1 ); }
void makeValid() {
m_line = kMax( 0, kMin( int( m_vi->m_doc->numLines() - 1 ), line() ) );
if (m_vi->m_view->wrapCursor())
m_col = kMax( 0, kMin( m_vi->m_doc->lineLength( line() ), col() ) );
else
m_col = kMax( 0, col() );
Q_ASSERT( valid() );
}
void toEdge( Bias bias ) {
if( bias == left_b ) m_col = 0;
else if( bias == right_b ) m_col = m_vi->m_doc->lineLength( line() );
}
bool atEdge() const { return atEdge( left_b ) || atEdge( right_b ); }
bool atEdge( Bias bias ) const {
switch( bias ) {
case left_b: return col() == 0;
case none: return atEdge();
case right_b: return col() == m_vi->m_doc->lineLength( line() );
default: Q_ASSERT(false); return false;
}
}
protected:
bool valid() const {
return line() >= 0 &&
uint( line() ) < m_vi->m_doc->numLines() &&
col() >= 0 &&
(!m_vi->m_view->wrapCursor() || col() <= m_vi->m_doc->lineLength( line() ));
}
KateViewInternal* m_vi;
};
class BoundedCursor : public CalculatingCursor {
public:
BoundedCursor(KateViewInternal* vi)
: CalculatingCursor( vi ) {};
BoundedCursor(KateViewInternal* vi, const KateTextCursor& c )
: CalculatingCursor( vi, c ) {};
BoundedCursor(KateViewInternal* vi, uint line, uint col )
: CalculatingCursor( vi, line, col ) {};
virtual CalculatingCursor& operator+=( int n ) {
m_col += n;
if (n > 0 && m_vi->m_view->dynWordWrap()) {
// Need to constrain to current visible text line for dynamic wrapping mode
if (m_col > m_vi->m_doc->lineLength(m_line)) {
KateLineRange currentRange = m_vi->range(*this);
int endX;
bool crap;
m_vi->m_view->renderer()->textWidth(m_vi->textLine(m_line), currentRange.startCol, m_vi->width() - currentRange.xOffset(), &crap, &endX);
endX += (m_col - currentRange.endCol + 1) * m_vi->m_view->renderer()->spaceWidth();
// Constraining if applicable NOTE: some code duplication in KateViewInternal::resize()
if (endX >= m_vi->width() - currentRange.xOffset()) {
m_col -= n;
if ( uint( line() ) < m_vi->m_doc->numLines() - 1 ) {
m_line++;
m_col = 0;
}
}
}
} else if (n < 0 && col() < 0 && line() > 0 ) {
m_line--;
m_col = m_vi->m_doc->lineLength( line() );
}
m_col = kMax( 0, col() );
Q_ASSERT( valid() );
return *this;
}
virtual CalculatingCursor& operator-=( int n ) {
return operator+=( -n );
}
};
class WrappingCursor : public CalculatingCursor {
public:
WrappingCursor(KateViewInternal* vi)
: CalculatingCursor( vi) {};
WrappingCursor(KateViewInternal* vi, const KateTextCursor& c )
: CalculatingCursor( vi, c ) {};
WrappingCursor(KateViewInternal* vi, uint line, uint col )
: CalculatingCursor( vi, line, col ) {};
virtual CalculatingCursor& operator+=( int n ) {
if( n < 0 ) return operator-=( -n );
int len = m_vi->m_doc->lineLength( line() );
if( col() + n <= len ) {
m_col += n;
} else if( uint( line() ) < m_vi->m_doc->numLines() - 1 ) {
n -= len - col() + 1;
m_col = 0;
m_line++;
operator+=( n );
} else {
m_col = len;
}
Q_ASSERT( valid() );
return *this;
}
virtual CalculatingCursor& operator-=( int n ) {
if( n < 0 ) return operator+=( -n );
if( col() - n >= 0 ) {
m_col -= n;
} else if( line() > 0 ) {
n -= col() + 1;
m_line--;
m_col = m_vi->m_doc->lineLength( line() );
operator-=( n );
} else {
m_col = 0;
}
Q_ASSERT( valid() );
return *this;
}
};
void KateViewInternal::moveChar( Bias bias, bool sel )
{
KateTextCursor c;
if ( m_view->wrapCursor() ) {
c = WrappingCursor( this, cursor ) += bias;
} else {
c = BoundedCursor( this, cursor ) += bias;
}
updateSelection( c, sel );
updateCursor( c );
}
void KateViewInternal::cursorLeft( bool sel )
{
if ( ! m_view->wrapCursor() && cursor.col() == 0 )
return;
moveChar( left_b, sel );
if (m_view->m_codeCompletion->codeCompletionVisible()) {
m_view->m_codeCompletion->updateBox();
}
}
void KateViewInternal::cursorRight( bool sel )
{
moveChar( right_b, sel );
if (m_view->m_codeCompletion->codeCompletionVisible()) {
m_view->m_codeCompletion->updateBox();
}
}
void KateViewInternal::wordLeft ( bool sel )
{
WrappingCursor c( this, cursor );
// First we skip backwards all space.
// Then we look up into which category the current position falls:
// 1. a "word" character
// 2. a "non-word" character (except space)
// 3. the beginning of the line
// and skip all preceding characters that fall into this class.
// The code assumes that space is never part of the word character class.
KateHighlighting* h = m_doc->highlight();
if( !c.atEdge( left_b ) ) {
while( !c.atEdge( left_b ) && m_doc->textLine( c.line() )[ c.col() - 1 ].isSpace() )
--c;
}
if( c.atEdge( left_b ) )
{
--c;
}
else if( h->isInWord( m_doc->textLine( c.line() )[ c.col() - 1 ] ) )
{
while( !c.atEdge( left_b ) && h->isInWord( m_doc->textLine( c.line() )[ c.col() - 1 ] ) )
--c;
}
else
{
while( !c.atEdge( left_b )
&& !h->isInWord( m_doc->textLine( c.line() )[ c.col() - 1 ] )
// in order to stay symmetric to wordLeft()
// we must not skip space preceding a non-word sequence
&& !m_doc->textLine( c.line() )[ c.col() - 1 ].isSpace() )
{
--c;
}
}
updateSelection( c, sel );
updateCursor( c );
}
void KateViewInternal::wordRight( bool sel )
{
WrappingCursor c( this, cursor );
// We look up into which category the current position falls:
// 1. a "word" character
// 2. a "non-word" character (except space)
// 3. the end of the line
// and skip all following characters that fall into this class.
// If the skipped characters are followed by space, we skip that too.
// The code assumes that space is never part of the word character class.
KateHighlighting* h = m_doc->highlight();
if( c.atEdge( right_b ) )
{
++c;
}
else if( h->isInWord( m_doc->textLine( c.line() )[ c.col() ] ) )
{
while( !c.atEdge( right_b ) && h->isInWord( m_doc->textLine( c.line() )[ c.col() ] ) )
++c;
}
else
{
while( !c.atEdge( right_b )
&& !h->isInWord( m_doc->textLine( c.line() )[ c.col() ] )
// we must not skip space, because if that space is followed
// by more non-word characters, we would skip them, too
&& !m_doc->textLine( c.line() )[ c.col() ].isSpace() )
{
++c;
}
}
while( !c.atEdge( right_b ) && m_doc->textLine( c.line() )[ c.col() ].isSpace() )
++c;
updateSelection( c, sel );
updateCursor( c );
}
void KateViewInternal::moveEdge( Bias bias, bool sel )
{
BoundedCursor c( this, cursor );
c.toEdge( bias );
updateSelection( c, sel );
updateCursor( c );
}
void KateViewInternal::home( bool sel )
{
if (m_view->m_codeCompletion->codeCompletionVisible()) {
TQKeyEvent e(TQEvent::KeyPress, Qt::Key_Home, 0, 0);
m_view->m_codeCompletion->handleKey(&e);
return;
}
if (m_view->dynWordWrap() && currentRange().startCol) {
// Allow us to go to the real start if we're already at the start of the view line
if (cursor.col() != currentRange().startCol) {
KateTextCursor c(cursor.line(), currentRange().startCol);
updateSelection( c, sel );
updateCursor( c );
return;
}
}
if( !(m_doc->configFlags() & KateDocument::cfSmartHome) ) {
moveEdge( left_b, sel );
return;
}
KateTextLine::Ptr l = textLine( cursor.line() );
if (!l)
return;
KateTextCursor c = cursor;
int lc = l->firstChar();
if( lc < 0 || c.col() == lc ) {
c.setCol(0);
} else {
c.setCol(lc);
}
updateSelection( c, sel );
updateCursor( c, true );
}
void KateViewInternal::end( bool sel )
{
if (m_view->m_codeCompletion->codeCompletionVisible()) {
TQKeyEvent e(TQEvent::KeyPress, Qt::Key_End, 0, 0);
m_view->m_codeCompletion->handleKey(&e);
return;
}
KateLineRange range = currentRange();
if (m_view->dynWordWrap() && range.wrap) {
// Allow us to go to the real end if we're already at the end of the view line
if (cursor.col() < range.endCol - 1) {
KateTextCursor c(cursor.line(), range.endCol - 1);
updateSelection( c, sel );
updateCursor( c );
return;
}
}
if( !(m_doc->configFlags() & KateDocument::cfSmartHome) ) {
moveEdge( right_b, sel );
return;
}
KateTextLine::Ptr l = textLine( cursor.line() );
if (!l)
return;
// "Smart End", as requested in bugs #78258 and #106970
KateTextCursor c = cursor;
// If the cursor is already the real end, jump to last non-space character.
// Otherwise, go to the real end ... obviously.
if (c.col() == m_doc->lineLength(c.line())) {
c.setCol(l->lastChar() + 1);
updateSelection(c, sel);
updateCursor(c, true);
} else {
moveEdge(right_b, sel);
}
}
KateLineRange KateViewInternal::range(int realLine, const KateLineRange* previous)
{
// look at the cache first
if (!m_updatingView && realLine >= lineRanges[0].line && realLine <= lineRanges[lineRanges.count() - 1].line)
for (uint i = 0; i < lineRanges.count(); i++)
if (realLine == lineRanges[i].line)
if (!m_view->dynWordWrap() || (!previous && lineRanges[i].startCol == 0) || (previous && lineRanges[i].startCol == previous->endCol))
return lineRanges[i];
// Not in the cache, we have to create it
KateLineRange ret;
KateTextLine::Ptr text = textLine(realLine);
if (!text) {
return KateLineRange();
}
if (!m_view->dynWordWrap()) {
Q_ASSERT(!previous);
ret.line = realLine;
ret.virtualLine = m_doc->getVirtualLine(realLine);
ret.startCol = 0;
ret.endCol = m_doc->lineLength(realLine);
ret.startX = 0;
ret.endX = m_view->renderer()->textWidth(text, -1);
ret.viewLine = 0;
ret.wrap = false;
return ret;
}
ret.endCol = (int)m_view->renderer()->textWidth(text, previous ? previous->endCol : 0, width() - (previous ? previous->shiftX : 0), &ret.wrap, &ret.endX);
Q_ASSERT(ret.endCol > ret.startCol);
ret.line = realLine;
if (previous) {
ret.virtualLine = previous->virtualLine;
ret.startCol = previous->endCol;
ret.startX = previous->endX;
ret.endX += previous->endX;
ret.shiftX = previous->shiftX;
ret.viewLine = previous->viewLine + 1;
} else {
// TODO worthwhile optimising this to get the data out of the initial textWidth call?
if (m_view->config()->dynWordWrapAlignIndent() > 0) {
int pos = text->nextNonSpaceChar(0);
if (pos > 0)
ret.shiftX = m_view->renderer()->textWidth(text, pos);
if (ret.shiftX > ((double)width() / 100 * m_view->config()->dynWordWrapAlignIndent()))
ret.shiftX = 0;
}
ret.virtualLine = m_doc->getVirtualLine(realLine);
ret.startCol = 0;
ret.startX = 0;
ret.viewLine = 0;
}
return ret;
}
KateLineRange KateViewInternal::currentRange()
{
// Q_ASSERT(m_view->dynWordWrap());
return range(cursor);
}
KateLineRange KateViewInternal::previousRange()
{
uint currentViewLine = viewLine(cursor);
if (currentViewLine)
return range(cursor.line(), currentViewLine - 1);
else
return range(m_doc->getRealLine(displayCursor.line() - 1), -1);
}
KateLineRange KateViewInternal::nextRange()
{
uint currentViewLine = viewLine(cursor) + 1;
if (currentViewLine >= viewLineCount(cursor.line())) {
currentViewLine = 0;
return range(cursor.line() + 1, currentViewLine);
} else {
return range(cursor.line(), currentViewLine);
}
}
KateLineRange KateViewInternal::range(const KateTextCursor& realCursor)
{
// Q_ASSERT(m_view->dynWordWrap());
KateLineRange thisRange;
bool first = true;
do {
thisRange = range(realCursor.line(), first ? 0L : &thisRange);
first = false;
} while (thisRange.wrap && !(realCursor.col() >= thisRange.startCol && realCursor.col() < thisRange.endCol) && thisRange.startCol != thisRange.endCol);
return thisRange;
}
KateLineRange KateViewInternal::range(uint realLine, int viewLine)
{
// Q_ASSERT(m_view->dynWordWrap());
KateLineRange thisRange;
bool first = true;
do {
thisRange = range(realLine, first ? 0L : &thisRange);
first = false;
} while (thisRange.wrap && viewLine != thisRange.viewLine && thisRange.startCol != thisRange.endCol);
if (viewLine != -1 && viewLine != thisRange.viewLine)
kdDebug(13030) << "WARNING: viewLine " << viewLine << " of line " << realLine << " does not exist." << endl;
return thisRange;
}
/**
* This returns the view line upon which realCursor is situated.
* The view line is the number of lines in the view from the first line
* The supplied cursor should be in real lines.
*/
uint KateViewInternal::viewLine(const KateTextCursor& realCursor)
{
if (!m_view->dynWordWrap()) return 0;
if (realCursor.col() == 0) return 0;
KateLineRange thisRange;
bool first = true;
do {
thisRange = range(realCursor.line(), first ? 0L : &thisRange);
first = false;
} while (thisRange.wrap && !(realCursor.col() >= thisRange.startCol && realCursor.col() < thisRange.endCol) && thisRange.startCol != thisRange.endCol);
return thisRange.viewLine;
}
int KateViewInternal::displayViewLine(const KateTextCursor& virtualCursor, bool limitToVisible)
{
KateTextCursor work = startPos();
int limit = linesDisplayed();
// Efficient non-word-wrapped path
if (!m_view->dynWordWrap()) {
int ret = virtualCursor.line() - startLine();
if (limitToVisible && (ret < 0 || ret > limit))
return -1;
else
return ret;
}
if (work == virtualCursor) {
return 0;
}
int ret = -(int)viewLine(work);
bool forwards = (work < virtualCursor) ? true : false;
// FIXME switch to using ranges? faster?
if (forwards) {
while (work.line() != virtualCursor.line()) {
ret += viewLineCount(m_doc->getRealLine(work.line()));
work.setLine(work.line() + 1);
if (limitToVisible && ret > limit)
return -1;
}
} else {
while (work.line() != virtualCursor.line()) {
work.setLine(work.line() - 1);
ret -= viewLineCount(m_doc->getRealLine(work.line()));
if (limitToVisible && ret < 0)
return -1;
}
}
// final difference
KateTextCursor realCursor = virtualCursor;
realCursor.setLine(m_doc->getRealLine(realCursor.line()));
if (realCursor.col() == -1) realCursor.setCol(m_doc->lineLength(realCursor.line()));
ret += viewLine(realCursor);
if (limitToVisible && (ret < 0 || ret > limit))
return -1;
return ret;
}
uint KateViewInternal::lastViewLine(uint realLine)
{
if (!m_view->dynWordWrap()) return 0;
KateLineRange thisRange;
bool first = true;
do {
thisRange = range(realLine, first ? 0L : &thisRange);
first = false;
} while (thisRange.wrap && thisRange.startCol != thisRange.endCol);
return thisRange.viewLine;
}
uint KateViewInternal::viewLineCount(uint realLine)
{
return lastViewLine(realLine) + 1;
}
/*
* This returns the cursor which is offset by (offset) view lines.
* This is the main function which is called by code not specifically dealing with word-wrap.
* The opposite conversion (cursor to offset) can be done with displayViewLine.
*
* The cursors involved are virtual cursors (ie. equivalent to displayCursor)
*/
KateTextCursor KateViewInternal::viewLineOffset(const KateTextCursor& virtualCursor, int offset, bool keepX)
{
if (!m_view->dynWordWrap()) {
KateTextCursor ret(kMin((int)m_doc->visibleLines() - 1, virtualCursor.line() + offset), 0);
if (ret.line() < 0)
ret.setLine(0);
if (keepX) {
int realLine = m_doc->getRealLine(ret.line());
ret.setCol(m_doc->lineLength(realLine) - 1);
if (m_currentMaxX > cXPos)
cXPos = m_currentMaxX;
if (m_view->wrapCursor())
cXPos = kMin(cXPos, (int)m_view->renderer()->textWidth(textLine(realLine), m_doc->lineLength(realLine)));
m_view->renderer()->textWidth(ret, cXPos);
}
return ret;
}
KateTextCursor realCursor = virtualCursor;
realCursor.setLine(m_doc->getRealLine(virtualCursor.line()));
uint cursorViewLine = viewLine(realCursor);
int currentOffset = 0;
int virtualLine = 0;
bool forwards = (offset > 0) ? true : false;
if (forwards) {
currentOffset = lastViewLine(realCursor.line()) - cursorViewLine;
if (offset <= currentOffset) {
// the answer is on the same line
KateLineRange thisRange = range(realCursor.line(), cursorViewLine + offset);
Q_ASSERT(thisRange.virtualLine == virtualCursor.line());
return KateTextCursor(virtualCursor.line(), thisRange.startCol);
}
virtualLine = virtualCursor.line() + 1;
} else {
offset = -offset;
currentOffset = cursorViewLine;
if (offset <= currentOffset) {
// the answer is on the same line
KateLineRange thisRange = range(realCursor.line(), cursorViewLine - offset);
Q_ASSERT(thisRange.virtualLine == virtualCursor.line());
return KateTextCursor(virtualCursor.line(), thisRange.startCol);
}
virtualLine = virtualCursor.line() - 1;
}
currentOffset++;
while (virtualLine >= 0 && virtualLine < (int)m_doc->visibleLines())
{
KateLineRange thisRange;
bool first = true;
int realLine = m_doc->getRealLine(virtualLine);
do {
thisRange = range(realLine, first ? 0L : &thisRange);
first = false;
if (offset == currentOffset) {
if (!forwards) {
// We actually want it the other way around
int requiredViewLine = lastViewLine(realLine) - thisRange.viewLine;
if (requiredViewLine != thisRange.viewLine) {
thisRange = range(realLine, requiredViewLine);
}
}
KateTextCursor ret(virtualLine, thisRange.startCol);
// keep column position
if (keepX) {
ret.setCol(thisRange.endCol - 1);
KateTextCursor realCursorTemp(m_doc->getRealLine(virtualCursor.line()), virtualCursor.col());
int visibleX = m_view->renderer()->textWidth(realCursorTemp) - range(realCursorTemp).startX;
int xOffset = thisRange.startX;
if (m_currentMaxX > visibleX)
visibleX = m_currentMaxX;
cXPos = xOffset + visibleX;
cXPos = kMin(cXPos, lineMaxCursorX(thisRange));
m_view->renderer()->textWidth(ret, cXPos);
}
return ret;
}
currentOffset++;
} while (thisRange.wrap);
if (forwards)
virtualLine++;
else
virtualLine--;
}
// Looks like we were asked for something a bit exotic.
// Return the max/min valid position.
if (forwards)
return KateTextCursor(m_doc->visibleLines() - 1, m_doc->lineLength(m_doc->visibleLines() - 1));
else
return KateTextCursor(0, 0);
}
int KateViewInternal::lineMaxCursorX(const KateLineRange& range)
{
if (!m_view->wrapCursor() && !range.wrap)
return INT_MAX;
int maxX = range.endX;
if (maxX && range.wrap) {
TQChar lastCharInLine = textLine(range.line)->getChar(range.endCol - 1);
if (lastCharInLine == TQChar('\t')) {
int lineSize = 0;
int lastTabSize = 0;
for(int i = range.startCol; i < range.endCol; i++) {
if (textLine(range.line)->getChar(i) == TQChar('\t')) {
lastTabSize = m_view->tabWidth() - (lineSize % m_view->tabWidth());
lineSize += lastTabSize;
} else {
lineSize++;
}
}
maxX -= lastTabSize * m_view->renderer()->spaceWidth();
} else {
maxX -= m_view->renderer()->config()->fontMetrics()->width(lastCharInLine);
}
}
return maxX;
}
int KateViewInternal::lineMaxCol(const KateLineRange& range)
{
int maxCol = range.endCol;
if (maxCol && range.wrap)
maxCol--;
return maxCol;
}
void KateViewInternal::cursorUp(bool sel)
{
if (m_view->m_codeCompletion->codeCompletionVisible()) {
TQKeyEvent e(TQEvent::KeyPress, Qt::Key_Up, 0, 0);
m_view->m_codeCompletion->handleKey(&e);
return;
}
if (displayCursor.line() == 0 && (!m_view->dynWordWrap() || viewLine(cursor) == 0))
return;
int newLine = cursor.line(), newCol = 0, xOffset = 0, startCol = 0;
m_preserveMaxX = true;
if (m_view->dynWordWrap()) {
// Dynamic word wrapping - navigate on visual lines rather than real lines
KateLineRange thisRange = currentRange();
// This is not the first line because that is already simplified out above
KateLineRange pRange = previousRange();
// Ensure we're in the right spot
Q_ASSERT((cursor.line() == thisRange.line) &&
(cursor.col() >= thisRange.startCol) &&
(!thisRange.wrap || cursor.col() < thisRange.endCol));
// VisibleX is the distance from the start of the text to the cursor on the current line.
int visibleX = m_view->renderer()->textWidth(cursor) - thisRange.startX;
int currentLineVisibleX = visibleX;
// Translate to new line
visibleX += thisRange.xOffset();
visibleX -= pRange.xOffset();
// Limit to >= 0
visibleX = kMax(0, visibleX);
startCol = pRange.startCol;
xOffset = pRange.startX;
newLine = pRange.line;
// Take into account current max X (ie. if the current line was smaller
// than the last definitely specified width)
if (thisRange.xOffset() && !pRange.xOffset() && currentLineVisibleX == 0) // Special case for where xOffset may be > m_currentMaxX
visibleX = m_currentMaxX;
else if (visibleX < m_currentMaxX - pRange.xOffset())
visibleX = m_currentMaxX - pRange.xOffset();
cXPos = xOffset + visibleX;
cXPos = kMin(cXPos, lineMaxCursorX(pRange));
newCol = kMin((int)m_view->renderer()->textPos(newLine, visibleX, startCol), lineMaxCol(pRange));
} else {
newLine = m_doc->getRealLine(displayCursor.line() - 1);
if ((m_view->wrapCursor()) && m_currentMaxX > cXPos)
cXPos = m_currentMaxX;
}
KateTextCursor c(newLine, newCol);
m_view->renderer()->textWidth(c, cXPos);
updateSelection( c, sel );
updateCursor( c );
}
void KateViewInternal::cursorDown(bool sel)
{
if (m_view->m_codeCompletion->codeCompletionVisible()) {
TQKeyEvent e(TQEvent::KeyPress, Qt::Key_Down, 0, 0);
m_view->m_codeCompletion->handleKey(&e);
return;
}
if ((displayCursor.line() >= (int)m_doc->numVisLines() - 1) && (!m_view->dynWordWrap() || viewLine(cursor) == lastViewLine(cursor.line())))
return;
int newLine = cursor.line(), newCol = 0, xOffset = 0, startCol = 0;
m_preserveMaxX = true;
if (m_view->dynWordWrap()) {
// Dynamic word wrapping - navigate on visual lines rather than real lines
KateLineRange thisRange = currentRange();
// This is not the last line because that is already simplified out above
KateLineRange nRange = nextRange();
// Ensure we're in the right spot
Q_ASSERT((cursor.line() == thisRange.line) &&
(cursor.col() >= thisRange.startCol) &&
(!thisRange.wrap || cursor.col() < thisRange.endCol));
// VisibleX is the distance from the start of the text to the cursor on the current line.
int visibleX = m_view->renderer()->textWidth(cursor) - thisRange.startX;
int currentLineVisibleX = visibleX;
// Translate to new line
visibleX += thisRange.xOffset();
visibleX -= nRange.xOffset();
// Limit to >= 0
visibleX = kMax(0, visibleX);
if (!thisRange.wrap) {
newLine = m_doc->getRealLine(displayCursor.line() + 1);
} else {
startCol = thisRange.endCol;
xOffset = thisRange.endX;
}
// Take into account current max X (ie. if the current line was smaller
// than the last definitely specified width)
if (thisRange.xOffset() && !nRange.xOffset() && currentLineVisibleX == 0) // Special case for where xOffset may be > m_currentMaxX
visibleX = m_currentMaxX;
else if (visibleX < m_currentMaxX - nRange.xOffset())
visibleX = m_currentMaxX - nRange.xOffset();
cXPos = xOffset + visibleX;
cXPos = kMin(cXPos, lineMaxCursorX(nRange));
newCol = kMin((int)m_view->renderer()->textPos(newLine, visibleX, startCol), lineMaxCol(nRange));
} else {
newLine = m_doc->getRealLine(displayCursor.line() + 1);
if ((m_view->wrapCursor()) && m_currentMaxX > cXPos)
cXPos = m_currentMaxX;
}
KateTextCursor c(newLine, newCol);
m_view->renderer()->textWidth(c, cXPos);
updateSelection(c, sel);
updateCursor(c);
}
void KateViewInternal::cursorToMatchingBracket( bool sel )
{
KateTextCursor start( cursor ), end;
if( !m_doc->findMatchingBracket( start, end ) )
return;
// The cursor is now placed just to the left of the matching bracket.
// If it's an ending bracket, put it to the right (so we can easily
// get back to the original bracket).
if( end > start )
end.setCol(end.col() + 1);
updateSelection( end, sel );
updateCursor( end );
}
void KateViewInternal::topOfView( bool sel )
{
KateTextCursor c = viewLineOffset(startPos(), m_minLinesVisible);
updateSelection( c, sel );
updateCursor( c );
}
void KateViewInternal::bottomOfView( bool sel )
{
// FIXME account for wordwrap
KateTextCursor c = viewLineOffset(endPos(), -m_minLinesVisible);
updateSelection( c, sel );
updateCursor( c );
}
// lines is the offset to scroll by
void KateViewInternal::scrollLines( int lines, bool sel )
{
KateTextCursor c = viewLineOffset(displayCursor, lines, true);
// Fix the virtual cursor -> real cursor
c.setLine(m_doc->getRealLine(c.line()));
updateSelection( c, sel );
updateCursor( c );
}
// This is a bit misleading... it's asking for the view to be scrolled, not the cursor
void KateViewInternal::scrollUp()
{
KateTextCursor newPos = viewLineOffset(m_startPos, -1);
scrollPos(newPos);
}
void KateViewInternal::scrollDown()
{
KateTextCursor newPos = viewLineOffset(m_startPos, 1);
scrollPos(newPos);
}
void KateViewInternal::setAutoCenterLines(int viewLines, bool updateView)
{
m_autoCenterLines = viewLines;
m_minLinesVisible = kMin(int((linesDisplayed() - 1)/2), m_autoCenterLines);
if (updateView)
KateViewInternal::updateView();
}
void KateViewInternal::pageUp( bool sel )
{
if (m_view->m_codeCompletion->codeCompletionVisible()) {
TQKeyEvent e(TQEvent::KeyPress, Qt::Key_PageUp, 0, 0);
m_view->m_codeCompletion->handleKey(&e);
return;
}
// remember the view line and x pos
int viewLine = displayViewLine(displayCursor);
bool atTop = (startPos().line() == 0 && startPos().col() == 0);
// Adjust for an auto-centering cursor
int lineadj = 2 * m_minLinesVisible;
int cursorStart = (linesDisplayed() - 1) - viewLine;
if (cursorStart < m_minLinesVisible)
lineadj -= m_minLinesVisible - cursorStart;
int linesToScroll = -kMax( ((int)linesDisplayed() - 1) - lineadj, 0 );
m_preserveMaxX = true;
if (!m_doc->pageUpDownMovesCursor () && !atTop) {
int xPos = m_view->renderer()->textWidth(cursor) - currentRange().startX;
KateTextCursor newStartPos = viewLineOffset(startPos(), linesToScroll - 1);
scrollPos(newStartPos);
// put the cursor back approximately where it was
KateTextCursor newPos = viewLineOffset(newStartPos, viewLine, true);
newPos.setLine(m_doc->getRealLine(newPos.line()));
KateLineRange newLine = range(newPos);
if (m_currentMaxX - newLine.xOffset() > xPos)
xPos = m_currentMaxX - newLine.xOffset();
cXPos = kMin(newLine.startX + xPos, lineMaxCursorX(newLine));
m_view->renderer()->textWidth( newPos, cXPos );
m_preserveMaxX = true;
updateSelection( newPos, sel );
updateCursor(newPos);
} else {
scrollLines( linesToScroll, sel );
}
}
void KateViewInternal::pageDown( bool sel )
{
if (m_view->m_codeCompletion->codeCompletionVisible()) {
TQKeyEvent e(TQEvent::KeyPress, Qt::Key_PageDown, 0, 0);
m_view->m_codeCompletion->handleKey(&e);
return;
}
// remember the view line
int viewLine = displayViewLine(displayCursor);
bool atEnd = startPos() >= m_cachedMaxStartPos;
// Adjust for an auto-centering cursor
int lineadj = 2 * m_minLinesVisible;
int cursorStart = m_minLinesVisible - viewLine;
if (cursorStart > 0)
lineadj -= cursorStart;
int linesToScroll = kMax( ((int)linesDisplayed() - 1) - lineadj, 0 );
m_preserveMaxX = true;
if (!m_doc->pageUpDownMovesCursor () && !atEnd) {
int xPos = m_view->renderer()->textWidth(cursor) - currentRange().startX;
KateTextCursor newStartPos = viewLineOffset(startPos(), linesToScroll + 1);
scrollPos(newStartPos);
// put the cursor back approximately where it was
KateTextCursor newPos = viewLineOffset(newStartPos, viewLine, true);
newPos.setLine(m_doc->getRealLine(newPos.line()));
KateLineRange newLine = range(newPos);
if (m_currentMaxX - newLine.xOffset() > xPos)
xPos = m_currentMaxX - newLine.xOffset();
cXPos = kMin(newLine.startX + xPos, lineMaxCursorX(newLine));
m_view->renderer()->textWidth( newPos, cXPos );
m_preserveMaxX = true;
updateSelection( newPos, sel );
updateCursor(newPos);
} else {
scrollLines( linesToScroll, sel );
}
}
int KateViewInternal::maxLen(uint startLine)
{
// Q_ASSERT(!m_view->dynWordWrap());
int displayLines = (m_view->height() / m_view->renderer()->fontHeight()) + 1;
int maxLen = 0;
for (int z = 0; z < displayLines; z++) {
int virtualLine = startLine + z;
if (virtualLine < 0 || virtualLine >= (int)m_doc->visibleLines())
break;
KateLineRange thisRange = range((int)m_doc->getRealLine(virtualLine));
maxLen = kMax(maxLen, thisRange.endX);
}
return maxLen;
}
void KateViewInternal::top( bool sel )
{
KateTextCursor c( 0, cursor.col() );
m_view->renderer()->textWidth( c, cXPos );
updateSelection( c, sel );
updateCursor( c );
}
void KateViewInternal::bottom( bool sel )
{
KateTextCursor c( m_doc->lastLine(), cursor.col() );
m_view->renderer()->textWidth( c, cXPos );
updateSelection( c, sel );
updateCursor( c );
}
void KateViewInternal::top_home( bool sel )
{
if (m_view->m_codeCompletion->codeCompletionVisible()) {
TQKeyEvent e(TQEvent::KeyPress, Qt::Key_Home, 0, 0);
m_view->m_codeCompletion->handleKey(&e);
return;
}
KateTextCursor c( 0, 0 );
updateSelection( c, sel );
updateCursor( c );
}
void KateViewInternal::bottom_end( bool sel )
{
if (m_view->m_codeCompletion->codeCompletionVisible()) {
TQKeyEvent e(TQEvent::KeyPress, Qt::Key_End, 0, 0);
m_view->m_codeCompletion->handleKey(&e);
return;
}
KateTextCursor c( m_doc->lastLine(), m_doc->lineLength( m_doc->lastLine() ) );
updateSelection( c, sel );
updateCursor( c );
}
void KateViewInternal::updateSelection( const KateTextCursor& _newCursor, bool keepSel )
{
KateTextCursor newCursor = _newCursor;
if( keepSel )
{
if ( !m_view->hasSelection() || (selectAnchor.line() == -1)
|| (m_view->config()->persistentSelection()
&& ((cursor < m_view->selectStart) || (cursor > m_view->selectEnd))) )
{
selectAnchor = cursor;
m_view->setSelection( cursor, newCursor );
}
else
{
bool doSelect = true;
switch (m_selectionMode)
{
case Word:
{
// Restore selStartCached if needed. It gets nuked by
// viewSelectionChanged if we drag the selection into non-existence,
// which can legitimately happen if a shift+DC selection is unable to
// set a "proper" (i.e. non-empty) cached selection, e.g. because the
// start was on something that isn't a word. Word select mode relies
// on the cached selection being set properly, even if it is empty
// (i.e. selStartCached == selEndCached).
if ( selStartCached.line() == -1 )
selStartCached = selEndCached;
int c;
if ( newCursor > selEndCached )
{
selectAnchor = selStartCached;
KateTextLine::Ptr l = m_doc->kateTextLine( newCursor.line() );
c = newCursor.col();
if ( c > 0 && m_doc->highlight()->isInWord( l->getChar( c-1 ) ) ) {
for (; c < l->length(); c++ )
if ( !m_doc->highlight()->isInWord( l->getChar( c ) ) )
break;
}
newCursor.setCol( c );
}
else if ( newCursor < selStartCached )
{
selectAnchor = selEndCached;
KateTextLine::Ptr l = m_doc->kateTextLine( newCursor.line() );
c = newCursor.col();
if ( c > 0 && c < m_doc->textLine( newCursor.line() ).length()
&& m_doc->highlight()->isInWord( l->getChar( c ) )
&& m_doc->highlight()->isInWord( l->getChar( c-1 ) ) ) {
for ( c -= 2; c >= 0; c-- )
if ( !m_doc->highlight()->isInWord( l->getChar( c ) ) )
break;
newCursor.setCol( c+1 );
}
}
else
doSelect = false;
}
break;
case Line:
if ( newCursor.line() > selStartCached.line() )
{
if ( newCursor.line()+1 >= m_doc->numLines() )
newCursor.setCol( m_doc->textLine( newCursor.line() ).length() );
else
newCursor.setPos( newCursor.line() + 1, 0 );
// Grow to include entire line
selectAnchor = selStartCached;
selectAnchor.setCol( 0 );
}
else if ( newCursor.line() < selStartCached.line() )
{
newCursor.setCol( 0 );
// Grow to include entire line
selectAnchor = selEndCached;
if ( selectAnchor.col() > 0 )
{
if ( selectAnchor.line()+1 >= m_doc->numLines() )
selectAnchor.setCol( m_doc->textLine( selectAnchor.line() ).length() );
else
selectAnchor.setPos( selectAnchor.line() + 1, 0 );
}
}
else // same line, ignore
doSelect = false;
break;
case Mouse:
{
if ( selStartCached.line() < 0 ) // invalid
break;
if ( newCursor > selEndCached )
selectAnchor = selStartCached;
else if ( newCursor < selStartCached )
selectAnchor = selEndCached;
else
doSelect = false;
}
break;
default:
{
if ( selectAnchor.line() < 0 ) // invalid
break;
}
}
if ( doSelect )
m_view->setSelection( selectAnchor, newCursor);
else if ( selStartCached.line() >= 0 ) // we have a cached selection, so we restore that
m_view->setSelection( selStartCached, selEndCached );
}
m_selChangedByUser = true;
}
else if ( !m_view->config()->persistentSelection() )
{
m_view->clearSelection();
selStartCached.setLine( -1 );
selectAnchor.setLine( -1 );
}
}
void KateViewInternal::updateCursor( const KateTextCursor& newCursor, bool force, bool center, bool calledExternally )
{
if ( !force && (cursor == newCursor) )
{
if ( !m_madeVisible && m_view == m_doc->activeView() )
{
// unfold if required
m_doc->foldingTree()->ensureVisible( newCursor.line() );
makeVisible ( displayCursor, displayCursor.col(), false, center, calledExternally );
}
return;
}
// unfold if required
m_doc->foldingTree()->ensureVisible( newCursor.line() );
KateTextCursor oldDisplayCursor = displayCursor;
cursor.setPos (newCursor);
displayCursor.setPos (m_doc->getVirtualLine(cursor.line()), cursor.col());
cXPos = m_view->renderer()->textWidth( cursor );
if (m_view == m_doc->activeView())
makeVisible ( displayCursor, displayCursor.col(), false, center, calledExternally );
updateBracketMarks();
// It's efficient enough to just tag them both without checking to see if they're on the same view line
tagLine(oldDisplayCursor);
tagLine(displayCursor);
updateMicroFocusHint();
if (m_cursorTimer.isActive ())
{
if ( TDEApplication::cursorFlashTime() > 0 )
m_cursorTimer.start( TDEApplication::cursorFlashTime() / 2 );
m_view->renderer()->setDrawCaret(true);
}
// Remember the maximum X position if requested
if (m_preserveMaxX)
m_preserveMaxX = false;
else
if (m_view->dynWordWrap())
m_currentMaxX = m_view->renderer()->textWidth(displayCursor) - currentRange().startX + currentRange().xOffset();
else
m_currentMaxX = cXPos;
//kdDebug() << "m_currentMaxX: " << m_currentMaxX << " (was "<< oldmaxx << "), cXPos: " << cXPos << endl;
//kdDebug(13030) << "Cursor now located at real " << cursor.line << "," << cursor.col << ", virtual " << displayCursor.line << ", " << displayCursor.col << "; Top is " << startLine() << ", " << startPos().col << endl;
paintText(0, 0, width(), height(), true);
emit m_view->cursorPositionChanged();
}
void KateViewInternal::updateBracketMarks()
{
if ( bm.isValid() ) {
KateTextCursor bmStart(m_doc->getVirtualLine(bm.start().line()), bm.start().col());
KateTextCursor bmEnd(m_doc->getVirtualLine(bm.end().line()), bm.end().col());
if( bm.getMinIndent() != 0 )
{
// @@ Do this only when cursor near start/end.
if( bmStart > bmEnd )
{
tagLines(bmEnd, bmStart);
}
else
{
tagLines(bmStart, bmEnd);
}
}
else
{
tagLine(bmStart);
tagLine(bmEnd);
}
}
// add some limit to this, this is really endless on big files without limit
int maxLines = linesDisplayed () * 3;
m_doc->newBracketMark( cursor, bm, maxLines );
if ( bm.isValid() ) {
KateTextCursor bmStart(m_doc->getVirtualLine(bm.start().line()), bm.start().col());
KateTextCursor bmEnd(m_doc->getVirtualLine(bm.end().line()), bm.end().col());
if( bm.getMinIndent() != 0 )
{
// @@ Do this only when cursor near start/end.
if( bmStart > bmEnd )
{
tagLines(bmEnd, bmStart);
}
else
{
tagLines(bmStart, bmEnd);
}
}
else
{
tagLine(bmStart);
tagLine(bmEnd);
}
}
}
bool KateViewInternal::tagLine(const KateTextCursor& virtualCursor)
{
int viewLine = displayViewLine(virtualCursor, true);
if (viewLine >= 0 && viewLine < (int)lineRanges.count()) {
lineRanges[viewLine].dirty = true;
leftBorder->update (0, lineToY(viewLine), leftBorder->width(), m_view->renderer()->fontHeight());
return true;
}
return false;
}
bool KateViewInternal::tagLines( int start, int end, bool realLines )
{
return tagLines(KateTextCursor(start, 0), KateTextCursor(end, -1), realLines);
}
bool KateViewInternal::tagLines(KateTextCursor start, KateTextCursor end, bool realCursors)
{
if (realCursors)
{
//kdDebug()<<"realLines is true"<<endl;
start.setLine(m_doc->getVirtualLine( start.line() ));
end.setLine(m_doc->getVirtualLine( end.line() ));
}
if (end.line() < (int)startLine())
{
//kdDebug()<<"end<startLine"<<endl;
return false;
}
if (start.line() > (int)endLine())
{
//kdDebug()<<"start> endLine"<<start<<" "<<((int)endLine())<<endl;
return false;
}
//kdDebug(13030) << "tagLines( [" << start.line << "," << start.col << "], [" << end.line << "," << end.col << "] )\n";
bool ret = false;
for (uint z = 0; z < lineRanges.size(); z++)
{
if ((lineRanges[z].virtualLine > start.line() || (lineRanges[z].virtualLine == start.line() && lineRanges[z].endCol >= start.col() && start.col() != -1)) && (lineRanges[z].virtualLine < end.line() || (lineRanges[z].virtualLine == end.line() && (lineRanges[z].startCol <= end.col() || end.col() == -1)))) {
ret = lineRanges[z].dirty = true;
//kdDebug() << "Tagged line " << lineRanges[z].line << endl;
}
}
if (!m_view->dynWordWrap())
{
int y = lineToY( start.line() );
// FIXME is this enough for when multiple lines are deleted
int h = (end.line() - start.line() + 2) * m_view->renderer()->fontHeight();
if (end.line() == (int)m_doc->numVisLines() - 1)
h = height();
leftBorder->update (0, y, leftBorder->width(), h);
}
else
{
// FIXME Do we get enough good info in editRemoveText to optimise this more?
//bool justTagged = false;
for (uint z = 0; z < lineRanges.size(); z++)
{
if ((lineRanges[z].virtualLine > start.line() || (lineRanges[z].virtualLine == start.line() && lineRanges[z].endCol >= start.col() && start.col() != -1)) && (lineRanges[z].virtualLine < end.line() || (lineRanges[z].virtualLine == end.line() && (lineRanges[z].startCol <= end.col() || end.col() == -1))))
{
//justTagged = true;
leftBorder->update (0, z * m_view->renderer()->fontHeight(), leftBorder->width(), leftBorder->height());
break;
}
/*else if (justTagged)
{
justTagged = false;
leftBorder->update (0, z * m_doc->viewFont.fontHeight, leftBorder->width(), m_doc->viewFont.fontHeight);
break;
}*/
}
}
return ret;
}
void KateViewInternal::tagAll()
{
//kdDebug(13030) << "tagAll()" << endl;
for (uint z = 0; z < lineRanges.size(); z++)
{
lineRanges[z].dirty = true;
}
leftBorder->updateFont();
leftBorder->update ();
}
void KateViewInternal::paintCursor()
{
if (tagLine(displayCursor))
paintText (0,0,width(), height(), true);
}
// Point in content coordinates
void KateViewInternal::placeCursor( const TQPoint& p, bool keepSelection, bool updateSelection )
{
KateLineRange thisRange = yToKateLineRange(p.y());
if (thisRange.line == -1) {
for (int i = (p.y() / m_view->renderer()->fontHeight()); i >= 0; i--) {
thisRange = lineRanges[i];
if (thisRange.line != -1)
break;
}
Q_ASSERT(thisRange.line != -1);
}
int realLine = thisRange.line;
int visibleLine = thisRange.virtualLine;
uint startCol = thisRange.startCol;
visibleLine = kMax( 0, kMin( visibleLine, int(m_doc->numVisLines()) - 1 ) );
KateTextCursor c(realLine, 0);
int x = kMin(kMax(-m_startX, p.x() - thisRange.xOffset()), lineMaxCursorX(thisRange) - thisRange.startX);
m_view->renderer()->textWidth( c, startX() + x, startCol);
if (updateSelection)
KateViewInternal::updateSelection( c, keepSelection );
updateCursor( c );
}
// Point in content coordinates
bool KateViewInternal::isTargetSelected( const TQPoint& p )
{
KateLineRange thisRange = yToKateLineRange(p.y());
KateTextLine::Ptr l = textLine( thisRange.line );
if( !l )
return false;
int col = m_view->renderer()->textPos( l, startX() + p.x() - thisRange.xOffset(), thisRange.startCol, false );
return m_view->lineColSelected( thisRange.line, col );
}
//BEGIN EVENT HANDLING STUFF
bool KateViewInternal::eventFilter( TQObject *obj, TQEvent *e )
{
if (TQT_BASE_OBJECT(obj) == TQT_BASE_OBJECT(m_lineScroll))
{
// the second condition is to make sure a scroll on the vertical bar doesn't cause a horizontal scroll ;)
if (e->type() == TQEvent::Wheel && m_lineScroll->minValue() != m_lineScroll->maxValue())
{
wheelEvent((TQWheelEvent*)e);
return true;
}
// continue processing
return TQWidget::eventFilter( obj, e );
}
switch( e->type() )
{
case TQEvent::KeyPress:
{
TQKeyEvent *k = (TQKeyEvent *)e;
if (m_view->m_codeCompletion->codeCompletionVisible ())
{
kdDebug (13030) << "hint around" << endl;
if( k->key() == Key_Escape )
m_view->m_codeCompletion->abortCompletion();
}
if ((k->key() == Qt::Key_Escape) && !m_view->config()->persistentSelection() )
{
m_view->clearSelection();
return true;
}
else if ( !((k->state() & ControlButton) || (k->state() & AltButton)) )
{
keyPressEvent( k );
return k->isAccepted();
}
} break;
case TQEvent::DragMove:
{
TQPoint currentPoint = ((TQDragMoveEvent*) e)->pos();
TQRect doNotScrollRegion( scrollMargin, scrollMargin,
width() - scrollMargin * 2,
height() - scrollMargin * 2 );
if ( !doNotScrollRegion.contains( currentPoint ) )
{
startDragScroll();
// Keep sending move events
( (TQDragMoveEvent*)e )->accept( TQRect(0,0,0,0) );
}
dragMoveEvent((TQDragMoveEvent*)e);
} break;
case TQEvent::DragLeave:
// happens only when pressing ESC while dragging
stopDragScroll();
break;
case TQEvent::WindowBlocked:
// next focus originates from an internal dialog:
// don't show the modonhd prompt
m_doc->m_isasking = -1;
break;
default:
break;
}
return TQWidget::eventFilter( obj, e );
}
void KateViewInternal::keyPressEvent( TQKeyEvent* e )
{
KKey key(e);
bool codeComp = m_view->m_codeCompletion->codeCompletionVisible ();
if (codeComp)
{
kdDebug (13030) << "hint around" << endl;
if( e->key() == Key_Enter || e->key() == Key_Return ||
(key == SHIFT + Qt::Key_Return) || (key == SHIFT + Qt::Key_Enter)) {
m_view->m_codeCompletion->doComplete();
e->accept();
return;
}
}
if( !m_doc->isReadWrite() )
{
e->ignore();
return;
}
if ((key == Qt::Key_Return) || (key == Qt::Key_Enter))
{
m_view->keyReturn();
e->accept();
return;
}
if ((key == SHIFT + Qt::Key_Return) || (key == SHIFT + Qt::Key_Enter))
{
uint ln = cursor.line();
int col = cursor.col();
KateTextLine::Ptr line = m_doc->kateTextLine( ln );
int pos = line->firstChar();
if (pos > cursor.col()) pos = cursor.col();
if (pos != -1) {
while ((int)line->length() > pos &&
!line->getChar(pos).isLetterOrNumber() &&
pos < cursor.col()) ++pos;
} else {
pos = line->length(); // stay indented
}
m_doc->editStart();
m_doc->insertText( cursor.line(), line->length(), "\n" + line->string(0, pos)
+ line->string().right( line->length() - cursor.col() ) );
cursor.setPos(ln + 1, pos);
if (col < int(line->length()))
m_doc->editRemoveText(ln, col, line->length() - col);
m_doc->editEnd();
updateCursor(cursor, true);
updateView();
e->accept();
return;
}
if (key == Qt::Key_Backspace || key == SHIFT + Qt::Key_Backspace)
{
m_view->backspace();
e->accept();
if (codeComp)
m_view->m_codeCompletion->updateBox ();
return;
}
if (key == Qt::Key_Tab || key == SHIFT+Qt::Key_Backtab || key == Qt::Key_Backtab)
{
if (m_doc->invokeTabInterceptor(key)) {
e->accept();
return;
} else
if (m_doc->configFlags() & KateDocumentConfig::cfTabIndents)
{
if( key == Qt::Key_Tab )
{
if (m_view->hasSelection() || (m_doc->configFlags() & KateDocumentConfig::cfTabIndentsMode))
m_doc->indent( m_view, cursor.line(), 1 );
else if (m_doc->configFlags() & KateDocumentConfig::cfTabInsertsTab)
m_doc->typeChars ( m_view, TQString ("\t") );
else
m_doc->insertIndentChars ( m_view );
e->accept();
if (codeComp)
m_view->m_codeCompletion->updateBox ();
return;
}
if (key == SHIFT+Qt::Key_Backtab || key == Qt::Key_Backtab)
{
m_doc->indent( m_view, cursor.line(), -1 );
e->accept();
if (codeComp)
m_view->m_codeCompletion->updateBox ();
return;
}
}
}
if ( !(e->state() & ControlButton) && !(e->state() & AltButton)
&& m_doc->typeChars ( m_view, e->text() ) )
{
e->accept();
if (codeComp)
m_view->m_codeCompletion->updateBox ();
return;
}
e->ignore();
}
void KateViewInternal::keyReleaseEvent( TQKeyEvent* e )
{
KKey key(e);
if (key == SHIFT)
m_shiftKeyPressed = true;
else
{
if (m_shiftKeyPressed)
{
m_shiftKeyPressed = false;
if (m_selChangedByUser)
{
TQApplication::clipboard()->setSelectionMode( true );
m_view->copy();
TQApplication::clipboard()->setSelectionMode( false );
m_selChangedByUser = false;
}
}
}
e->ignore();
return;
}
void KateViewInternal::contextMenuEvent ( TQContextMenuEvent * e )
{
// try to show popup menu
TQPoint p = e->pos();
if ( m_view->m_doc->browserView() )
{
m_view->contextMenuEvent( e );
return;
}
if ( e->reason() == TQContextMenuEvent::Keyboard )
{
makeVisible( cursor, 0 );
p = cursorCoordinates();
}
else if ( ! m_view->hasSelection() || m_view->config()->persistentSelection() )
placeCursor( e->pos() );
// popup is a qguardedptr now
if (m_view->popup()) {
m_view->popup()->popup( mapToGlobal( p ) );
e->accept ();
}
}
void KateViewInternal::mousePressEvent( TQMouseEvent* e )
{
switch (e->button())
{
case Qt::LeftButton:
m_selChangedByUser = false;
if (possibleTripleClick)
{
possibleTripleClick = false;
m_selectionMode = Line;
if ( e->state() & TQt::ShiftButton )
{
updateSelection( cursor, true );
}
else
{
m_view->selectLine( cursor );
}
TQApplication::clipboard()->setSelectionMode( true );
m_view->copy();
TQApplication::clipboard()->setSelectionMode( false );
// Keep the line at the select anchor selected during further
// mouse selection
if ( selectAnchor.line() > m_view->selectStart.line() )
{
// Preserve the last selected line
if ( selectAnchor == m_view->selectEnd && selectAnchor.col() == 0 )
selStartCached = KateTextCursor( selectAnchor.line()-1, 0 );
else
selStartCached = KateTextCursor( selectAnchor.line(), 0 );
selEndCached = m_view->selectEnd;
}
else
{
// Preserve the first selected line
selStartCached = m_view->selectStart;
if ( m_view->selectEnd.line() > m_view->selectStart.line() )
selEndCached = KateTextCursor( m_view->selectStart.line()+1, 0 );
else
selEndCached = m_view->selectEnd;
}
// Set cursor to edge of selection... which edge depends on what
// "direction" the selection was made in
if ( m_view->selectStart < selectAnchor
&& selectAnchor.line() != m_view->selectStart.line() )
updateCursor( m_view->selectStart );
else
updateCursor( m_view->selectEnd );
e->accept ();
return;
}
else if (m_selectionMode == Default)
{
m_selectionMode = Mouse;
}
if ( e->state() & TQt::ShiftButton )
{
if (selectAnchor.line() < 0)
selectAnchor = cursor;
}
else
{
selStartCached.setLine( -1 ); // invalidate
}
if( !( e->state() & TQt::ShiftButton ) && isTargetSelected( e->pos() ) )
{
dragInfo.state = diPending;
dragInfo.start = e->pos();
}
else
{
dragInfo.state = diNone;
if ( e->state() & TQt::ShiftButton )
{
placeCursor( e->pos(), true, false );
if ( selStartCached.line() >= 0 )
{
if ( cursor > selEndCached )
{
m_view->setSelection( selStartCached, cursor );
selectAnchor = selStartCached;
}
else if ( cursor < selStartCached )
{
m_view->setSelection( cursor, selEndCached );
selectAnchor = selEndCached;
}
else
{
m_view->setSelection( selStartCached, cursor );
}
}
else
{
m_view->setSelection( selectAnchor, cursor );
}
}
else
{
placeCursor( e->pos() );
}
scrollX = 0;
scrollY = 0;
m_scrollTimer.start (50);
}
e->accept ();
break;
default:
e->ignore ();
break;
}
}
void KateViewInternal::mouseDoubleClickEvent(TQMouseEvent *e)
{
switch (e->button())
{
case Qt::LeftButton:
m_selectionMode = Word;
if ( e->state() & TQt::ShiftButton )
{
KateTextCursor oldSelectStart = m_view->selectStart;
KateTextCursor oldSelectEnd = m_view->selectEnd;
// Now select the word under the select anchor
int cs, ce;
KateTextLine::Ptr l = m_doc->kateTextLine( selectAnchor.line() );
ce = selectAnchor.col();
if ( ce > 0 && m_doc->highlight()->isInWord( l->getChar( ce ) ) ) {
for (; ce < l->length(); ce++ )
if ( !m_doc->highlight()->isInWord( l->getChar( ce ) ) )
break;
}
cs = selectAnchor.col() - 1;
if ( cs < m_doc->textLine( selectAnchor.line() ).length()
&& m_doc->highlight()->isInWord( l->getChar( cs ) ) ) {
for ( cs--; cs >= 0; cs-- )
if ( !m_doc->highlight()->isInWord( l->getChar( cs ) ) )
break;
}
// ...and keep it selected
if (cs+1 < ce)
{
selStartCached = KateTextCursor( selectAnchor.line(), cs+1 );
selEndCached = KateTextCursor( selectAnchor.line(), ce );
}
else
{
selStartCached = selectAnchor;
selEndCached = selectAnchor;
}
// Now word select to the mouse cursor
placeCursor( e->pos(), true );
}
else
{
// first clear the selection, otherwise we run into bug #106402
// ...and set the cursor position, for the same reason (otherwise there
// are *other* idiosyncrasies we can't fix without reintroducing said
// bug)
// Parameters: 1st false: don't redraw
// 2nd false: don't emit selectionChanged signals, as
// selectWord() emits this already
m_view->clearSelection( false, false );
placeCursor( e->pos() );
m_view->selectWord( cursor );
if (m_view->hasSelection())
{
selectAnchor = selStartCached = m_view->selectStart;
selEndCached = m_view->selectEnd;
}
else
{
// if we didn't actually select anything, restore the selection mode
// -- see bug #131369 (kling)
m_selectionMode = Default;
}
}
// Move cursor to end (or beginning) of selected word
if (m_view->hasSelection())
{
TQApplication::clipboard()->setSelectionMode( true );
m_view->copy();
TQApplication::clipboard()->setSelectionMode( false );
// Shift+DC before the "cached" word should move the cursor to the
// beginning of the selection, not the end
if (m_view->selectStart < selStartCached)
updateCursor( m_view->selectStart );
else
updateCursor( m_view->selectEnd );
}
possibleTripleClick = true;
TQTimer::singleShot ( TQApplication::doubleClickInterval(), this, TQT_SLOT(tripleClickTimeout()) );
scrollX = 0;
scrollY = 0;
m_scrollTimer.start (50);
e->accept ();
break;
default:
e->ignore ();
break;
}
}
void KateViewInternal::tripleClickTimeout()
{
possibleTripleClick = false;
}
void KateViewInternal::mouseReleaseEvent( TQMouseEvent* e )
{
switch (e->button())
{
case Qt::LeftButton:
m_selectionMode = Default;
// selStartCached.setLine( -1 );
if (m_selChangedByUser)
{
TQApplication::clipboard()->setSelectionMode( true );
m_view->copy();
TQApplication::clipboard()->setSelectionMode( false );
// Set cursor to edge of selection... which edge depends on what
// "direction" the selection was made in
if ( m_view->selectStart < selectAnchor )
updateCursor( m_view->selectStart );
else
updateCursor( m_view->selectEnd );
m_selChangedByUser = false;
}
if (dragInfo.state == diPending)
placeCursor( e->pos(), e->state() & ShiftButton );
else if (dragInfo.state == diNone)
m_scrollTimer.stop ();
dragInfo.state = diNone;
e->accept ();
break;
case Qt::MidButton:
placeCursor( e->pos() );
if( m_doc->isReadWrite() )
{
TQApplication::clipboard()->setSelectionMode( true );
m_view->paste ();
TQApplication::clipboard()->setSelectionMode( false );
}
e->accept ();
break;
default:
e->ignore ();
break;
}
}
void KateViewInternal::mouseMoveEvent( TQMouseEvent* e )
{
if( e->state() & Qt::LeftButton )
{
if (dragInfo.state == diPending)
{
// we had a mouse down, but haven't confirmed a drag yet
// if the mouse has moved sufficiently, we will confirm
TQPoint p( e->pos() - dragInfo.start );
// we've left the drag square, we can start a real drag operation now
if( p.manhattanLength() > TDEGlobalSettings::dndEventDelay() )
doDrag();
return;
}
else if (dragInfo.state == diDragging)
{
// Don't do anything after a canceled drag until the user lets go of
// the mouse button!
return;
}
mouseX = e->x();
mouseY = e->y();
scrollX = 0;
scrollY = 0;
int d = m_view->renderer()->fontHeight();
if (mouseX < 0)
scrollX = -d;
if (mouseX > width())
scrollX = d;
if (mouseY < 0)
{
mouseY = 0;
scrollY = -d;
}
if (mouseY > height())
{
mouseY = height();
scrollY = d;
}
placeCursor( TQPoint( mouseX, mouseY ), true );
}
else
{
if (isTargetSelected( e->pos() ) ) {
// mouse is over selected text. indicate that the text is draggable by setting
// the arrow cursor as other Qt text editing widgets do
if (m_mouseCursor != ArrowCursor) {
setCursor( KCursor::arrowCursor() );
m_mouseCursor = TQt::ArrowCursor;
}
} else {
// normal text cursor
if (m_mouseCursor != IbeamCursor) {
setCursor( KCursor::ibeamCursor() );
m_mouseCursor = TQt::IbeamCursor;
}
}
if (m_textHintEnabled)
{
m_textHintTimer.start(m_textHintTimeout);
m_textHintMouseX=e->x();
m_textHintMouseY=e->y();
}
}
}
void KateViewInternal::paintEvent(TQPaintEvent *e)
{
paintText(e->rect().x(), e->rect().y(), e->rect().width(), e->rect().height());
}
void KateViewInternal::resizeEvent(TQResizeEvent* e)
{
bool expandedHorizontally = width() > e->oldSize().width();
bool expandedVertically = height() > e->oldSize().height();
bool heightChanged = height() != e->oldSize().height();
m_madeVisible = false;
if (heightChanged) {
setAutoCenterLines(m_autoCenterLines, false);
m_cachedMaxStartPos.setPos(-1, -1);
}
if (m_view->dynWordWrap()) {
bool dirtied = false;
for (uint i = 0; i < lineRanges.count(); i++) {
// find the first dirty line
// the word wrap updateView algorithm is forced to check all lines after a dirty one
if (lineRanges[i].wrap ||
(!expandedHorizontally && (lineRanges[i].endX - lineRanges[i].startX) > width())) {
dirtied = lineRanges[i].dirty = true;
break;
}
}
if (dirtied || heightChanged) {
updateView(true);
leftBorder->update();
}
if (width() < e->oldSize().width()) {
if (!m_view->wrapCursor()) {
// May have to restrain cursor to new smaller width...
if (cursor.col() > m_doc->lineLength(cursor.line())) {
KateLineRange thisRange = currentRange();
KateTextCursor newCursor(cursor.line(), thisRange.endCol + ((width() - thisRange.xOffset() - (thisRange.endX - thisRange.startX)) / m_view->renderer()->spaceWidth()) - 1);
updateCursor(newCursor);
}
}
}
} else {
updateView();
if (expandedHorizontally && startX() > 0)
scrollColumns(startX() - (width() - e->oldSize().width()));
}
if (expandedVertically) {
KateTextCursor max = maxStartPos();
if (startPos() > max)
scrollPos(max);
}
}
void KateViewInternal::scrollTimeout ()
{
if (scrollX || scrollY)
{
scrollLines (startPos().line() + (scrollY / (int)m_view->renderer()->fontHeight()));
placeCursor( TQPoint( mouseX, mouseY ), true );
}
}
void KateViewInternal::cursorTimeout ()
{
m_view->renderer()->setDrawCaret(!m_view->renderer()->drawCaret());
paintCursor();
}
void KateViewInternal::textHintTimeout ()
{
m_textHintTimer.stop ();
KateLineRange thisRange = yToKateLineRange(m_textHintMouseY);
if (thisRange.line == -1) return;
if (m_textHintMouseX> (lineMaxCursorX(thisRange) - thisRange.startX)) return;
int realLine = thisRange.line;
int startCol = thisRange.startCol;
KateTextCursor c(realLine, 0);
m_view->renderer()->textWidth( c, startX() + m_textHintMouseX, startCol);
TQString tmp;
emit m_view->needTextHint(c.line(), c.col(), tmp);
if (!tmp.isEmpty()) kdDebug(13030)<<"Hint text: "<<tmp<<endl;
}
void KateViewInternal::focusInEvent (TQFocusEvent *)
{
if (TDEApplication::cursorFlashTime() > 0)
m_cursorTimer.start ( TDEApplication::cursorFlashTime() / 2 );
if (m_textHintEnabled)
m_textHintTimer.start( m_textHintTimeout );
paintCursor();
m_doc->setActiveView( m_view );
emit m_view->gotFocus( m_view );
}
void KateViewInternal::focusOutEvent (TQFocusEvent *)
{
if( m_view->renderer() && ! m_view->m_codeCompletion->codeCompletionVisible() )
{
m_cursorTimer.stop();
m_view->renderer()->setDrawCaret(true);
paintCursor();
emit m_view->lostFocus( m_view );
}
m_textHintTimer.stop();
}
void KateViewInternal::doDrag()
{
dragInfo.state = diDragging;
dragInfo.dragObject = new TQTextDrag(m_view->selection(), this);
dragInfo.dragObject->drag();
}
void KateViewInternal::dragEnterEvent( TQDragEnterEvent* event )
{
event->accept( (TQTextDrag::canDecode(event) && m_doc->isReadWrite()) ||
KURLDrag::canDecode(event) );
}
void KateViewInternal::dragMoveEvent( TQDragMoveEvent* event )
{
// track the cursor to the current drop location
placeCursor( event->pos(), true, false );
// important: accept action to switch between copy and move mode
// without this, the text will always be copied.
event->acceptAction();
}
void KateViewInternal::dropEvent( TQDropEvent* event )
{
if ( KURLDrag::canDecode(event) ) {
emit dropEventPass(event);
} else if ( TQTextDrag::canDecode(event) && m_doc->isReadWrite() ) {
TQString text;
if (!TQTextDrag::decode(event, text))
return;
// is the source our own document?
bool priv = false;
if (event->source() && event->source()->inherits("KateViewInternal"))
priv = m_doc->ownedView( ((KateViewInternal*)(event->source()))->m_view );
// dropped on a text selection area?
bool selected = isTargetSelected( event->pos() );
if( priv && selected ) {
// this is a drag that we started and dropped on our selection
// ignore this case
return;
}
// use one transaction
m_doc->editStart ();
// on move: remove selected text; on copy: duplicate text
if ( event->action() != TQDropEvent::Copy )
m_view->removeSelectedText();
m_doc->insertText( cursor.line(), cursor.col(), text );
m_doc->editEnd ();
placeCursor( event->pos() );
event->acceptAction();
updateView();
}
// finally finish drag and drop mode
dragInfo.state = diNone;
// important, because the eventFilter`s DragLeave does not occur
stopDragScroll();
}
//END EVENT HANDLING STUFF
void KateViewInternal::clear()
{
cursor.setPos(0, 0);
displayCursor.setPos(0, 0);
}
void KateViewInternal::wheelEvent(TQWheelEvent* e)
{
if (m_lineScroll->minValue() != m_lineScroll->maxValue() && e->orientation() != Qt::Horizontal) {
// React to this as a vertical event
if ( ( e->state() & ControlButton ) || ( e->state() & ShiftButton ) ) {
if (e->delta() > 0)
scrollPrevPage();
else
scrollNextPage();
} else {
scrollViewLines(-((e->delta() / 120) * TQApplication::wheelScrollLines()));
// maybe a menu was opened or a bubbled window title is on us -> we shall erase it
update();
leftBorder->update();
}
} else if (columnScrollingPossible()) {
TQWheelEvent copy = *e;
TQApplication::sendEvent(m_columnScroll, &copy);
} else {
e->ignore();
}
}
void KateViewInternal::startDragScroll()
{
if ( !m_dragScrollTimer.isActive() ) {
m_dragScrollTimer.start( scrollTime );
}
}
void KateViewInternal::stopDragScroll()
{
m_dragScrollTimer.stop();
updateView();
}
void KateViewInternal::doDragScroll()
{
TQPoint p = this->mapFromGlobal( TQCursor::pos() );
int dx = 0, dy = 0;
if ( p.y() < scrollMargin ) {
dy = p.y() - scrollMargin;
} else if ( p.y() > height() - scrollMargin ) {
dy = scrollMargin - (height() - p.y());
}
if ( p.x() < scrollMargin ) {
dx = p.x() - scrollMargin;
} else if ( p.x() > width() - scrollMargin ) {
dx = scrollMargin - (width() - p.x());
}
dy /= 4;
if (dy)
scrollLines(startPos().line() + dy);
if (columnScrollingPossible () && dx)
scrollColumns(kMin (m_startX + dx, m_columnScroll->maxValue()));
if (!dy && !dx)
stopDragScroll();
}
void KateViewInternal::enableTextHints(int timeout)
{
m_textHintTimeout=timeout;
m_textHintEnabled=true;
m_textHintTimer.start(timeout);
}
void KateViewInternal::disableTextHints()
{
m_textHintEnabled=false;
m_textHintTimer.stop ();
}
bool KateViewInternal::columnScrollingPossible ()
{
return !m_view->dynWordWrap() && m_columnScroll->isEnabled() && (m_columnScroll->maxValue() > 0);
}
//BEGIN EDIT STUFF
void KateViewInternal::editStart()
{
editSessionNumber++;
if (editSessionNumber > 1)
return;
editIsRunning = true;
editOldCursor = cursor;
}
void KateViewInternal::editEnd(int editTagLineStart, int editTagLineEnd, bool tagFrom)
{
if (editSessionNumber == 0)
return;
editSessionNumber--;
if (editSessionNumber > 0)
return;
if (tagFrom && (editTagLineStart <= int(m_doc->getRealLine(startLine()))))
tagAll();
else
tagLines (editTagLineStart, tagFrom ? m_doc->lastLine() : editTagLineEnd, true);
if (editOldCursor == cursor)
updateBracketMarks();
if (m_imPreeditLength <= 0)
updateView(true);
if ((editOldCursor != cursor) && (m_imPreeditLength <= 0))
{
m_madeVisible = false;
updateCursor ( cursor, true );
}
else if ( m_view == m_doc->activeView() )
{
makeVisible(displayCursor, displayCursor.col());
}
editIsRunning = false;
}
void KateViewInternal::editSetCursor (const KateTextCursor &cursor)
{
if (this->cursor != cursor)
{
this->cursor.setPos (cursor);
}
}
//END
void KateViewInternal::viewSelectionChanged ()
{
if (!m_view->hasSelection())
{
selectAnchor.setPos (-1, -1);
selStartCached.setPos (-1, -1);
}
}
//BEGIN IM INPUT STUFF
void KateViewInternal::imStartEvent( TQIMEvent *e )
{
if ( m_doc->m_bReadOnly ) {
e->ignore();
return;
}
if ( m_view->hasSelection() )
m_view->removeSelectedText();
m_imPreeditStartLine = cursor.line();
m_imPreeditStart = cursor.col();
m_imPreeditLength = 0;
m_imPreeditSelStart = m_imPreeditStart;
m_view->setIMSelectionValue( m_imPreeditStartLine, m_imPreeditStart, 0, 0, 0, true );
}
void KateViewInternal::imComposeEvent( TQIMEvent *e )
{
if ( m_doc->m_bReadOnly ) {
e->ignore();
return;
}
// remove old preedit
if ( m_imPreeditLength > 0 ) {
cursor.setPos( m_imPreeditStartLine, m_imPreeditStart );
m_doc->removeText( m_imPreeditStartLine, m_imPreeditStart,
m_imPreeditStartLine, m_imPreeditStart + m_imPreeditLength );
}
m_imPreeditLength = e->text().length();
m_imPreeditSelStart = m_imPreeditStart + e->cursorPos();
// update selection
m_view->setIMSelectionValue( m_imPreeditStartLine, m_imPreeditStart, m_imPreeditStart + m_imPreeditLength,
m_imPreeditSelStart, m_imPreeditSelStart + e->selectionLength(),
true );
// insert new preedit
m_doc->insertText( m_imPreeditStartLine, m_imPreeditStart, e->text() );
// update cursor
cursor.setPos( m_imPreeditStartLine, m_imPreeditSelStart );
updateCursor( cursor, true );
updateView( true );
}
void KateViewInternal::imEndEvent( TQIMEvent *e )
{
if ( m_doc->m_bReadOnly ) {
e->ignore();
return;
}
if ( m_imPreeditLength > 0 ) {
cursor.setPos( m_imPreeditStartLine, m_imPreeditStart );
m_doc->removeText( m_imPreeditStartLine, m_imPreeditStart,
m_imPreeditStartLine, m_imPreeditStart + m_imPreeditLength );
}
m_view->setIMSelectionValue( m_imPreeditStartLine, m_imPreeditStart, 0, 0, 0, false );
if ( e->text().length() > 0 ) {
m_doc->insertText( cursor.line(), cursor.col(), e->text() );
if ( !m_cursorTimer.isActive() && TDEApplication::cursorFlashTime() > 0 )
m_cursorTimer.start ( TDEApplication::cursorFlashTime() / 2 );
updateView( true );
updateCursor( cursor, true );
}
m_imPreeditStart = 0;
m_imPreeditLength = 0;
m_imPreeditSelStart = 0;
}
//END IM INPUT STUFF