/* This file is part of Konsole, a terminal emulator for KDE. Copyright (C) 2006-7 by Robert Knight Copyright (C) 1997,1998 by Lars Doelle Rewritten for QT4 by e_k , Copyright (C)2008 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ // Own #include "TerminalDisplay.h" // Qt #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "Filter.h" #include "konsole_wcwidth.h" #include "ScreenWindow.h" #include "TerminalCharacterDecoder.h" #include "ColorTables.h" using namespace Konsole; #ifndef loc #define loc(X,Y) ((Y)*_columns+(X)) #endif #define yMouseScroll 1 #define REPCHAR "ABCDEFGHIJKLMNOPQRSTUVWXYZ" \ "abcdefgjijklmnopqrstuvwxyz" \ "0123456789./+@" // scroll increment used when dragging selection at top/bottom of window. // static bool TerminalDisplay::_antialiasText = true; bool TerminalDisplay::HAVE_TRANSPARENCY = false; /* ------------------------------------------------------------------------- */ /* */ /* Colors */ /* */ /* ------------------------------------------------------------------------- */ /* Note that we use ANSI color order (bgr), while IBMPC color order is (rgb) Code 0 1 2 3 4 5 6 7 ----------- ------- ------- ------- ------- ------- ------- ------- ------- ANSI (bgr) Black Red Green Yellow Blue Magenta Cyan White IBMPC (rgb) Black Blue Green Cyan Red Magenta Yellow White */ ScreenWindow* TerminalDisplay::screenWindow() const { return _screenWindow; } void TerminalDisplay::setScreenWindow(ScreenWindow* window) { // disconnect existing screen window if any if ( _screenWindow ) { disconnect( _screenWindow , 0 , this , 0 ); } _screenWindow = window; if ( window ) { //#warning "The order here is not specified - does it matter whether updateImage or updateLineProperties comes first?" connect( _screenWindow , SIGNAL(outputChanged()) , this , SLOT(updateLineProperties()) ); connect( _screenWindow , SIGNAL(outputChanged()) , this , SLOT(updateImage()) ); window->setWindowLines(_lines); } } const ColorEntry* TerminalDisplay::colorTable() const { return _colorTable; } void TerminalDisplay::setColorTable(const ColorEntry table[]) { for (int i = 0; i < TABLE_COLORS; i++) _colorTable[i] = table[i]; QPalette p = palette(); p.setColor( backgroundRole(), _colorTable[DEFAULT_BACK_COLOR].color ); setPalette( p ); // Avoid propagating the palette change to the scroll bar _scrollBar->setPalette( QApplication::palette() ); update(); } /* ------------------------------------------------------------------------- */ /* */ /* Font */ /* */ /* ------------------------------------------------------------------------- */ /* The VT100 has 32 special graphical characters. The usual vt100 extended xterm fonts have these at 0x00..0x1f. QT's iso mapping leaves 0x00..0x7f without any changes. But the graphicals come in here as proper unicode characters. We treat non-iso10646 fonts as VT100 extended and do the requiered mapping from unicode to 0x00..0x1f. The remaining translation is then left to the QCodec. */ static inline bool isLineChar(quint16 c) { return ((c & 0xFF80) == 0x2500);} static inline bool isLineCharString(const QString& string) { return (string.length() > 0) && (isLineChar(string.at(0).unicode())); } // assert for i in [0..31] : vt100extended(vt100_graphics[i]) == i. unsigned short Konsole::vt100_graphics[32] = { // 0/8 1/9 2/10 3/11 4/12 5/13 6/14 7/15 0x0020, 0x25C6, 0x2592, 0x2409, 0x240c, 0x240d, 0x240a, 0x00b0, 0x00b1, 0x2424, 0x240b, 0x2518, 0x2510, 0x250c, 0x2514, 0x253c, 0xF800, 0xF801, 0x2500, 0xF803, 0xF804, 0x251c, 0x2524, 0x2534, 0x252c, 0x2502, 0x2264, 0x2265, 0x03C0, 0x2260, 0x00A3, 0x00b7 }; void TerminalDisplay::fontChange(const QFont&) { QFontMetrics fm(font()); _fontHeight = fm.height() + _lineSpacing; // waba TerminalDisplay 1.123: // "Base character width on widest ASCII character. This prevents too wide // characters in the presence of double wide (e.g. Japanese) characters." // Get the width from representative normal width characters _fontWidth = qRound((double)fm.width(REPCHAR)/(double)strlen(REPCHAR)); _fixedFont = true; int fw = fm.width(REPCHAR[0]); for(unsigned int i=1; i< strlen(REPCHAR); i++) { if (fw != fm.width(REPCHAR[i])) { _fixedFont = false; break; } } if (_fontWidth < 1) _fontWidth=1; _fontAscent = fm.ascent(); emit changedFontMetricSignal( _fontHeight, _fontWidth ); propagateSize(); update(); } void TerminalDisplay::setVTFont(const QFont& f) { QFont font = f; QFontMetrics metrics(font); if ( metrics.height() < height() && metrics.maxWidth() < width() ) { // hint that text should be drawn without anti-aliasing. // depending on the user's font configuration, this may not be respected if (!_antialiasText) font.setStyleStrategy( QFont::NoAntialias ); // experimental optimization. Konsole assumes that the terminal is using a // mono-spaced font, in which case kerning information should have an effect. // Disabling kerning saves some computation when rendering text. font.setKerning(false); QWidget::setFont(font); fontChange(font); } } void TerminalDisplay::setFont(const QFont &) { // ignore font change request if not coming from konsole itself } /* ------------------------------------------------------------------------- */ /* */ /* Constructor / Destructor */ /* */ /* ------------------------------------------------------------------------- */ TerminalDisplay::TerminalDisplay(QWidget *parent) :QWidget(parent) ,_screenWindow(0) ,_allowBell(true) ,_gridLayout(0) ,_fontHeight(1) ,_fontWidth(1) ,_fontAscent(1) ,_lines(1) ,_columns(1) ,_usedLines(1) ,_usedColumns(1) ,_contentHeight(1) ,_contentWidth(1) ,_image(0) ,_randomSeed(0) ,_resizing(false) ,_terminalSizeHint(false) ,_terminalSizeStartup(true) ,_bidiEnabled(false) ,_actSel(0) ,_wordSelectionMode(false) ,_lineSelectionMode(false) ,_preserveLineBreaks(false) ,_columnSelectionMode(false) ,_scrollbarLocation(NoScrollBar) ,_wordCharacters(":@-./_~") ,_bellMode(SystemBeepBell) ,_blinking(false) ,_cursorBlinking(false) ,_hasBlinkingCursor(false) ,_ctrlDrag(false) ,_tripleClickMode(SelectWholeLine) ,_isFixedSize(false) ,_possibleTripleClick(false) ,_resizeWidget(0) ,_resizeTimer(0) ,_flowControlWarningEnabled(false) ,_outputSuspendedLabel(0) ,_lineSpacing(0) ,_colorsInverted(false) ,_blendColor(qRgba(0,0,0,0xff)) ,_filterChain(new TerminalImageFilterChain()) ,_cursorShape(BlockCursor) { // terminal applications are not designed with Right-To-Left in mind, // so the layout is forced to Left-To-Right setLayoutDirection(Qt::LeftToRight); // The offsets are not yet calculated. // Do not calculate these too often to be more smoothly when resizing // konsole in opaque mode. _topMargin = DEFAULT_TOP_MARGIN; _leftMargin = DEFAULT_LEFT_MARGIN; // create scroll bar for scrolling output up and down // set the scroll bar's slider to occupy the whole area of the scroll bar initially _scrollBar = new QScrollBar(this); setScroll(0,0); _scrollBar->setCursor( Qt::ArrowCursor ); connect(_scrollBar, SIGNAL(valueChanged(int)), this, SLOT(scrollBarPositionChanged(int))); // setup timers for blinking cursor and text _blinkTimer = new QTimer(this); connect(_blinkTimer, SIGNAL(timeout()), this, SLOT(blinkEvent())); _blinkCursorTimer = new QTimer(this); connect(_blinkCursorTimer, SIGNAL(timeout()), this, SLOT(blinkCursorEvent())); // QCursor::setAutoHideCursor( this, true ); setUsesMouse(true); setColorTable(whiteonblack_color_table); // setColorTable(blackonlightyellow_color_table); setMouseTracking(true); // Enable drag and drop setAcceptDrops(true); // attempt dragInfo.state = diNone; setFocusPolicy( Qt::WheelFocus ); // enable input method support setAttribute(Qt::WA_InputMethodEnabled, true); // this is an important optimization, it tells Qt // that TerminalDisplay will handle repainting its entire area. setAttribute(Qt::WA_OpaquePaintEvent); _gridLayout = new QGridLayout(this); _gridLayout->setMargin(0); setLayout( _gridLayout ); //set up a warning message when the user presses Ctrl+S to avoid confusion connect( this,SIGNAL(flowControlKeyPressed(bool)),this,SLOT(outputSuspended(bool)) ); } TerminalDisplay::~TerminalDisplay() { qApp->removeEventFilter( this ); delete[] _image; delete _gridLayout; delete _outputSuspendedLabel; delete _filterChain; } /* ------------------------------------------------------------------------- */ /* */ /* Display Operations */ /* */ /* ------------------------------------------------------------------------- */ /** A table for emulating the simple (single width) unicode drawing chars. It represents the 250x - 257x glyphs. If it's zero, we can't use it. if it's not, it's encoded as follows: imagine a 5x5 grid where the points are numbered 0 to 24 left to top, top to bottom. Each point is represented by the corresponding bit. Then, the pixels basically have the following interpretation: _|||_ -...- -...- -...- _|||_ where _ = none | = vertical line. - = horizontal line. */ enum LineEncode { TopL = (1<<1), TopC = (1<<2), TopR = (1<<3), LeftT = (1<<5), Int11 = (1<<6), Int12 = (1<<7), Int13 = (1<<8), RightT = (1<<9), LeftC = (1<<10), Int21 = (1<<11), Int22 = (1<<12), Int23 = (1<<13), RightC = (1<<14), LeftB = (1<<15), Int31 = (1<<16), Int32 = (1<<17), Int33 = (1<<18), RightB = (1<<19), BotL = (1<<21), BotC = (1<<22), BotR = (1<<23) }; #include "LineFont.h" static void drawLineChar(QPainter& paint, int x, int y, int w, int h, uchar code) { //Calculate cell midpoints, end points. int cx = x + w/2; int cy = y + h/2; int ex = x + w - 1; int ey = y + h - 1; quint32 toDraw = LineChars[code]; //Top _lines: if (toDraw & TopL) paint.drawLine(cx-1, y, cx-1, cy-2); if (toDraw & TopC) paint.drawLine(cx, y, cx, cy-2); if (toDraw & TopR) paint.drawLine(cx+1, y, cx+1, cy-2); //Bot _lines: if (toDraw & BotL) paint.drawLine(cx-1, cy+2, cx-1, ey); if (toDraw & BotC) paint.drawLine(cx, cy+2, cx, ey); if (toDraw & BotR) paint.drawLine(cx+1, cy+2, cx+1, ey); //Left _lines: if (toDraw & LeftT) paint.drawLine(x, cy-1, cx-2, cy-1); if (toDraw & LeftC) paint.drawLine(x, cy, cx-2, cy); if (toDraw & LeftB) paint.drawLine(x, cy+1, cx-2, cy+1); //Right _lines: if (toDraw & RightT) paint.drawLine(cx+2, cy-1, ex, cy-1); if (toDraw & RightC) paint.drawLine(cx+2, cy, ex, cy); if (toDraw & RightB) paint.drawLine(cx+2, cy+1, ex, cy+1); //Intersection points. if (toDraw & Int11) paint.drawPoint(cx-1, cy-1); if (toDraw & Int12) paint.drawPoint(cx, cy-1); if (toDraw & Int13) paint.drawPoint(cx+1, cy-1); if (toDraw & Int21) paint.drawPoint(cx-1, cy); if (toDraw & Int22) paint.drawPoint(cx, cy); if (toDraw & Int23) paint.drawPoint(cx+1, cy); if (toDraw & Int31) paint.drawPoint(cx-1, cy+1); if (toDraw & Int32) paint.drawPoint(cx, cy+1); if (toDraw & Int33) paint.drawPoint(cx+1, cy+1); } void TerminalDisplay::drawLineCharString( QPainter& painter, int x, int y, const QString& str, const Character* attributes) { const QPen& currentPen = painter.pen(); if ( attributes->rendition & RE_BOLD ) { QPen boldPen(currentPen); boldPen.setWidth(3); painter.setPen( boldPen ); } for (int i=0 ; i < str.length(); i++) { uchar code = str[i].cell(); if (LineChars[code]) drawLineChar(painter, x + (_fontWidth*i), y, _fontWidth, _fontHeight, code); } painter.setPen( currentPen ); } void TerminalDisplay::setKeyboardCursorShape(KeyboardCursorShape shape) { _cursorShape = shape; } TerminalDisplay::KeyboardCursorShape TerminalDisplay::keyboardCursorShape() const { return _cursorShape; } void TerminalDisplay::setKeyboardCursorColor(bool useForegroundColor, const QColor& color) { if (useForegroundColor) _cursorColor = QColor(); // an invalid color means that // the foreground color of the // current character should // be used else _cursorColor = color; } QColor TerminalDisplay::keyboardCursorColor() const { return _cursorColor; } void TerminalDisplay::setOpacity(qreal opacity) { QColor color(_blendColor); color.setAlphaF(opacity); // enable automatic background filling to prevent the display // flickering if there is no transparency if ( color.alpha() == 255 ) { setAutoFillBackground(true); } else { setAutoFillBackground(false); } _blendColor = color.rgba(); } void TerminalDisplay::drawBackground(QPainter& painter, const QRect& rect, const QColor& backgroundColor, bool useOpacitySetting ) { // the area of the widget showing the contents of the terminal display is drawn // using the background color from the color scheme set with setColorTable() // // the area of the widget behind the scroll-bar is drawn using the background // brush from the scroll-bar's palette, to give the effect of the scroll-bar // being outside of the terminal display and visual consistency with other KDE // applications. // QRect scrollBarArea = _scrollBar->isVisible() ? rect.intersected(_scrollBar->geometry()) : QRect(); QRegion contentsRegion = QRegion(rect).subtracted(scrollBarArea); QRect contentsRect = contentsRegion.boundingRect(); if ( HAVE_TRANSPARENCY && qAlpha(_blendColor) < 0xff && useOpacitySetting ) { QColor color(backgroundColor); color.setAlpha(qAlpha(_blendColor)); painter.save(); painter.setCompositionMode(QPainter::CompositionMode_Source); painter.fillRect(contentsRect, color); painter.restore(); } else { painter.fillRect(contentsRect, backgroundColor); } painter.fillRect(scrollBarArea,_scrollBar->palette().background()); } void TerminalDisplay::drawCursor(QPainter& painter, const QRect& rect, const QColor& foregroundColor, const QColor& /*backgroundColor*/, bool& invertCharacterColor) { QRect cursorRect = rect; cursorRect.setHeight(_fontHeight - _lineSpacing - 1); if (!_cursorBlinking) { if ( _cursorColor.isValid() ) painter.setPen(_cursorColor); else { painter.setPen(foregroundColor); } if ( _cursorShape == BlockCursor ) { // draw the cursor outline, adjusting the area so that // it is draw entirely inside 'rect' int penWidth = qMax(1,painter.pen().width()); painter.drawRect(cursorRect.adjusted(penWidth/2, penWidth/2, - penWidth/2 - penWidth%2, - penWidth/2 - penWidth%2)); if ( hasFocus() ) { painter.fillRect(cursorRect, _cursorColor.isValid() ? _cursorColor : foregroundColor); if ( !_cursorColor.isValid() ) { // invert the colour used to draw the text to ensure that the character at // the cursor position is readable invertCharacterColor = true; } } } else if ( _cursorShape == UnderlineCursor ) painter.drawLine(cursorRect.left(), cursorRect.bottom(), cursorRect.right(), cursorRect.bottom()); else if ( _cursorShape == IBeamCursor ) painter.drawLine(cursorRect.left(), cursorRect.top(), cursorRect.left(), cursorRect.bottom()); } } void TerminalDisplay::drawCharacters(QPainter& painter, const QRect& rect, const QString& text, const Character* style, bool invertCharacterColor) { // don't draw text which is currently blinking if ( _blinking && (style->rendition & RE_BLINK) ) return; // setup bold and underline bool useBold = style->rendition & RE_BOLD || style->isBold(_colorTable) || font().bold(); bool useUnderline = style->rendition & RE_UNDERLINE || font().underline(); QFont font = painter.font(); if ( font.bold() != useBold || font.underline() != useUnderline ) { font.setBold(useBold); font.setUnderline(useUnderline); painter.setFont(font); } const CharacterColor& textColor = ( invertCharacterColor ? style->backgroundColor : style->foregroundColor ); const QColor color = textColor.color(_colorTable); QPen pen = painter.pen(); if ( pen.color() != color ) { pen.setColor(color); painter.setPen(color); } // draw text if ( isLineCharString(text) ) { drawLineCharString(painter,rect.x(),rect.y(),text,style); } else { // the drawText(rect,flags,string) overload is used here with null flags // instead of drawText(rect,string) because the (rect,string) overload causes // the application's default layout direction to be used instead of // the widget-specific layout direction, which should always be // Qt::LeftToRight for this widget painter.drawText(rect,0,text); } } void TerminalDisplay::drawTextFragment(QPainter& painter , const QRect& rect, const QString& text, const Character* style) { painter.save(); // setup painter const QColor foregroundColor = style->foregroundColor.color(_colorTable); const QColor backgroundColor = style->backgroundColor.color(_colorTable); // draw background if different from the display's background color if ( backgroundColor != palette().background().color() ) drawBackground(painter,rect,backgroundColor, false /* do not use transparency */); // draw cursor shape if the current character is the cursor // this may alter the foreground and background colors bool invertCharacterColor = false; if ( style->rendition & RE_CURSOR ) drawCursor(painter,rect,foregroundColor,backgroundColor,invertCharacterColor); // draw text drawCharacters(painter,rect,text,style,invertCharacterColor); painter.restore(); } void TerminalDisplay::setRandomSeed(uint randomSeed) { _randomSeed = randomSeed; } uint TerminalDisplay::randomSeed() const { return _randomSeed; } #if 0 /*! Set XIM Position */ void TerminalDisplay::setCursorPos(const int curx, const int cury) { QPoint tL = contentsRect().topLeft(); int tLx = tL.x(); int tLy = tL.y(); int xpos, ypos; ypos = _topMargin + tLy + _fontHeight*(cury-1) + _fontAscent; xpos = _leftMargin + tLx + _fontWidth*curx; //setMicroFocusHint(xpos, ypos, 0, _fontHeight); //### ??? // fprintf(stderr, "x/y = %d/%d\txpos/ypos = %d/%d\n", curx, cury, xpos, ypos); _cursorLine = cury; _cursorCol = curx; } #endif // scrolls the image by 'lines', down if lines > 0 or up otherwise. // // the terminal emulation keeps track of the scrolling of the character // image as it receives input, and when the view is updated, it calls scrollImage() // with the final scroll amount. this improves performance because scrolling the // display is much cheaper than re-rendering all the text for the // part of the image which has moved up or down. // Instead only new lines have to be drawn // // note: it is important that the area of the display which is // scrolled aligns properly with the character grid - // which has a top left point at (_leftMargin,_topMargin) , // a cell width of _fontWidth and a cell height of _fontHeight). void TerminalDisplay::scrollImage(int lines , const QRect& screenWindowRegion) { // if the flow control warning is enabled this will interfere with the // scrolling optimisations and cause artifacts. the simple solution here // is to just disable the optimisation whilst it is visible if ( _outputSuspendedLabel && _outputSuspendedLabel->isVisible() ) { return; } // constrain the region to the display // the bottom of the region is capped to the number of lines in the display's // internal image - 2, so that the height of 'region' is strictly less // than the height of the internal image. QRect region = screenWindowRegion; region.setBottom( qMin(region.bottom(),this->_lines-2) ); if ( lines == 0 || _image == 0 || !region.isValid() || (region.top() + abs(lines)) >= region.bottom() || this->_lines <= region.height() ) return; QRect scrollRect; void* firstCharPos = &_image[ region.top() * this->_columns ]; void* lastCharPos = &_image[ (region.top() + abs(lines)) * this->_columns ]; int top = _topMargin + (region.top() * _fontHeight); int linesToMove = region.height() - abs(lines); int bytesToMove = linesToMove * this->_columns * sizeof(Character); Q_ASSERT( linesToMove > 0 ); Q_ASSERT( bytesToMove > 0 ); //scroll internal image if ( lines > 0 ) { // check that the memory areas that we are going to move are valid Q_ASSERT( (char*)lastCharPos + bytesToMove < (char*)(_image + (this->_lines * this->_columns)) ); Q_ASSERT( (lines*this->_columns) < _imageSize ); //scroll internal image down memmove( firstCharPos , lastCharPos , bytesToMove ); //set region of display to scroll, making sure that //the region aligns correctly to the character grid scrollRect = QRect( _leftMargin , top, this->_usedColumns * _fontWidth , linesToMove * _fontHeight ); } else { // check that the memory areas that we are going to move are valid Q_ASSERT( (char*)firstCharPos + bytesToMove < (char*)(_image + (this->_lines * this->_columns)) ); //scroll internal image up memmove( lastCharPos , firstCharPos , bytesToMove ); //set region of the display to scroll, making sure that //the region aligns correctly to the character grid QPoint topPoint( _leftMargin , top + abs(lines)*_fontHeight ); scrollRect = QRect( topPoint , QSize( this->_usedColumns*_fontWidth , linesToMove * _fontHeight )); } //scroll the display vertically to match internal _image scroll( 0 , _fontHeight * (-lines) , scrollRect ); } QRegion TerminalDisplay::hotSpotRegion() const { QRegion region; foreach( Filter::HotSpot* hotSpot , _filterChain->hotSpots() ) { QRect rect; rect.setLeft(hotSpot->startColumn()); rect.setTop(hotSpot->startLine()); rect.setRight(hotSpot->endColumn()); rect.setBottom(hotSpot->endLine()); region |= imageToWidget(rect); } return region; } void TerminalDisplay::processFilters() { if (!_screenWindow) return; QRegion preUpdateHotSpots = hotSpotRegion(); // use _screenWindow->getImage() here rather than _image because // other classes may call processFilters() when this display's // ScreenWindow emits a scrolled() signal - which will happen before // updateImage() is called on the display and therefore _image is // out of date at this point _filterChain->setImage( _screenWindow->getImage(), _screenWindow->windowLines(), _screenWindow->windowColumns(), _screenWindow->getLineProperties() ); _filterChain->process(); QRegion postUpdateHotSpots = hotSpotRegion(); update( preUpdateHotSpots | postUpdateHotSpots ); } void TerminalDisplay::updateImage() { if ( !_screenWindow ) return; // optimization - scroll the existing image where possible and // avoid expensive text drawing for parts of the image that // can simply be moved up or down scrollImage( _screenWindow->scrollCount() , _screenWindow->scrollRegion() ); _screenWindow->resetScrollCount(); Character* const newimg = _screenWindow->getImage(); int lines = _screenWindow->windowLines(); int columns = _screenWindow->windowColumns(); setScroll( _screenWindow->currentLine() , _screenWindow->lineCount() ); if (!_image) updateImageSize(); // Create _image Q_ASSERT( this->_usedLines <= this->_lines ); Q_ASSERT( this->_usedColumns <= this->_columns ); int y,x,len; QPoint tL = contentsRect().topLeft(); int tLx = tL.x(); int tLy = tL.y(); _hasBlinker = false; CharacterColor cf; // undefined CharacterColor _clipboard; // undefined int cr = -1; // undefined const int linesToUpdate = qMin(this->_lines, qMax(0,lines )); const int columnsToUpdate = qMin(this->_columns,qMax(0,columns)); QChar *disstrU = new QChar[columnsToUpdate]; char *dirtyMask = new char[columnsToUpdate+2]; QRegion dirtyRegion; // debugging variable, this records the number of lines that are found to // be 'dirty' ( ie. have changed from the old _image to the new _image ) and // which therefore need to be repainted int dirtyLineCount = 0; for (y = 0; y < linesToUpdate; y++) { const Character* currentLine = &_image[y*this->_columns]; const Character* const newLine = &newimg[y*columns]; bool updateLine = false; // The dirty mask indicates which characters need repainting. We also // mark surrounding neighbours dirty, in case the character exceeds // its cell boundaries memset(dirtyMask, 0, columnsToUpdate+2); for( x = 0 ; x < columnsToUpdate ; x++) { if ( newLine[x] != currentLine[x] ) { dirtyMask[x] = true; } } if (!_resizing) // not while _resizing, we're expecting a paintEvent for (x = 0; x < columnsToUpdate; x++) { _hasBlinker |= (newLine[x].rendition & RE_BLINK); // Start drawing if this character or the next one differs. // We also take the next one into account to handle the situation // where characters exceed their cell width. if (dirtyMask[x]) { quint16 c = newLine[x+0].character; if ( !c ) continue; int p = 0; disstrU[p++] = c; //fontMap(c); bool lineDraw = isLineChar(c); bool doubleWidth = (x+1 == columnsToUpdate) ? false : (newLine[x+1].character == 0); cr = newLine[x].rendition; _clipboard = newLine[x].backgroundColor; if (newLine[x].foregroundColor != cf) cf = newLine[x].foregroundColor; int lln = columnsToUpdate - x; for (len = 1; len < lln; len++) { const Character& ch = newLine[x+len]; if (!ch.character) continue; // Skip trailing part of multi-col chars. bool nextIsDoubleWidth = (x+len+1 == columnsToUpdate) ? false : (newLine[x+len+1].character == 0); if ( ch.foregroundColor != cf || ch.backgroundColor != _clipboard || ch.rendition != cr || !dirtyMask[x+len] || isLineChar(c) != lineDraw || nextIsDoubleWidth != doubleWidth ) break; disstrU[p++] = c; //fontMap(c); } QString unistr(disstrU, p); bool saveFixedFont = _fixedFont; if (lineDraw) _fixedFont = false; if (doubleWidth) _fixedFont = false; updateLine = true; _fixedFont = saveFixedFont; x += len - 1; } } //both the top and bottom halves of double height _lines must always be redrawn //although both top and bottom halves contain the same characters, only //the top one is actually //drawn. if (_lineProperties.count() > y) updateLine |= (_lineProperties[y] & LINE_DOUBLEHEIGHT); // if the characters on the line are different in the old and the new _image // then this line must be repainted. if (updateLine) { dirtyLineCount++; // add the area occupied by this line to the region which needs to be // repainted QRect dirtyRect = QRect( _leftMargin+tLx , _topMargin+tLy+_fontHeight*y , _fontWidth * columnsToUpdate , _fontHeight ); dirtyRegion |= dirtyRect; } // replace the line of characters in the old _image with the // current line of the new _image memcpy((void*)currentLine,(const void*)newLine,columnsToUpdate*sizeof(Character)); } // if the new _image is smaller than the previous _image, then ensure that the area // outside the new _image is cleared if ( linesToUpdate < _usedLines ) { dirtyRegion |= QRect( _leftMargin+tLx , _topMargin+tLy+_fontHeight*linesToUpdate , _fontWidth * this->_columns , _fontHeight * (_usedLines-linesToUpdate) ); } _usedLines = linesToUpdate; if ( columnsToUpdate < _usedColumns ) { dirtyRegion |= QRect( _leftMargin+tLx+columnsToUpdate*_fontWidth , _topMargin+tLy , _fontWidth * (_usedColumns-columnsToUpdate) , _fontHeight * this->_lines ); } _usedColumns = columnsToUpdate; dirtyRegion |= _inputMethodData.previousPreeditRect; // update the parts of the display which have changed update(dirtyRegion); if ( _hasBlinker && !_blinkTimer->isActive()) _blinkTimer->start( BLINK_DELAY ); if (!_hasBlinker && _blinkTimer->isActive()) { _blinkTimer->stop(); _blinking = false; } delete[] dirtyMask; delete[] disstrU; } void TerminalDisplay::showResizeNotification() { if (_terminalSizeHint && isVisible()) { if (_terminalSizeStartup) { _terminalSizeStartup=false; return; } if (!_resizeWidget) { _resizeWidget = new QLabel(("Size: XXX x XXX"), this); _resizeWidget->setMinimumWidth(_resizeWidget->fontMetrics().width(("Size: XXX x XXX"))); _resizeWidget->setMinimumHeight(_resizeWidget->sizeHint().height()); _resizeWidget->setAlignment(Qt::AlignCenter); _resizeWidget->setStyleSheet("background-color:palette(window);border-style:solid;border-width:1px;border-color:palette(dark)"); _resizeTimer = new QTimer(this); _resizeTimer->setSingleShot(true); connect(_resizeTimer, SIGNAL(timeout()), _resizeWidget, SLOT(hide())); } QString sizeStr; sizeStr.sprintf("Size: %d x %d", _columns, _lines); _resizeWidget->setText(sizeStr); _resizeWidget->move((width()-_resizeWidget->width())/2, (height()-_resizeWidget->height())/2+20); _resizeWidget->show(); _resizeTimer->start(1000); } } void TerminalDisplay::setBlinkingCursor(bool blink) { _hasBlinkingCursor=blink; if (blink && !_blinkCursorTimer->isActive()) _blinkCursorTimer->start(BLINK_DELAY); if (!blink && _blinkCursorTimer->isActive()) { _blinkCursorTimer->stop(); if (_cursorBlinking) blinkCursorEvent(); else _cursorBlinking = false; } } void TerminalDisplay::paintEvent( QPaintEvent* pe ) { //qDebug("%s %d paintEvent", __FILE__, __LINE__); QPainter paint(this); foreach (QRect rect, (pe->region() & contentsRect()).rects()) { drawBackground(paint,rect,palette().background().color(), true /* use opacity setting */); drawContents(paint, rect); } // drawBackground(paint,contentsRect(),palette().background().color(), true /* use opacity setting */); // drawContents(paint, contentsRect()); drawInputMethodPreeditString(paint,preeditRect()); paintFilters(paint); paint.end(); } QPoint TerminalDisplay::cursorPosition() const { if (_screenWindow) return _screenWindow->cursorPosition(); else return QPoint(0,0); } QRect TerminalDisplay::preeditRect() const { const int preeditLength = string_width(_inputMethodData.preeditString); if ( preeditLength == 0 ) return QRect(); return QRect(_leftMargin + _fontWidth*cursorPosition().x(), _topMargin + _fontHeight*cursorPosition().y(), _fontWidth*preeditLength, _fontHeight); } void TerminalDisplay::drawInputMethodPreeditString(QPainter& painter , const QRect& rect) { if ( _inputMethodData.preeditString.isEmpty() ) { return; } const QPoint cursorPos = cursorPosition(); bool invertColors = false; const QColor background = _colorTable[DEFAULT_BACK_COLOR].color; const QColor foreground = _colorTable[DEFAULT_FORE_COLOR].color; const Character* style = &_image[loc(cursorPos.x(),cursorPos.y())]; drawBackground(painter,rect,background,true); drawCursor(painter,rect,foreground,background,invertColors); drawCharacters(painter,rect,_inputMethodData.preeditString,style,invertColors); _inputMethodData.previousPreeditRect = rect; } FilterChain* TerminalDisplay::filterChain() const { return _filterChain; } void TerminalDisplay::paintFilters(QPainter& painter) { //qDebug("%s %d paintFilters", __FILE__, __LINE__); // get color of character under mouse and use it to draw // lines for filters QPoint cursorPos = mapFromGlobal(QCursor::pos()); int cursorLine; int cursorColumn; getCharacterPosition( cursorPos , cursorLine , cursorColumn ); Character cursorCharacter = _image[loc(cursorColumn,cursorLine)]; painter.setPen( QPen(cursorCharacter.foregroundColor.color(colorTable())) ); // iterate over hotspots identified by the display's currently active filters // and draw appropriate visuals to indicate the presence of the hotspot QList spots = _filterChain->hotSpots(); QListIterator iter(spots); while (iter.hasNext()) { Filter::HotSpot* spot = iter.next(); for ( int line = spot->startLine() ; line <= spot->endLine() ; line++ ) { int startColumn = 0; int endColumn = _columns-1; // TODO use number of _columns which are actually // occupied on this line rather than the width of the // display in _columns // ignore whitespace at the end of the lines while ( QChar(_image[loc(endColumn,line)].character).isSpace() && endColumn > 0 ) endColumn--; // increment here because the column which we want to set 'endColumn' to // is the first whitespace character at the end of the line endColumn++; if ( line == spot->startLine() ) startColumn = spot->startColumn(); if ( line == spot->endLine() ) endColumn = spot->endColumn(); // subtract one pixel from // the right and bottom so that // we do not overdraw adjacent // hotspots // // subtracting one pixel from all sides also prevents an edge case where // moving the mouse outside a link could still leave it underlined // because the check below for the position of the cursor // finds it on the border of the target area QRect r; r.setCoords( startColumn*_fontWidth + 1, line*_fontHeight + 1, endColumn*_fontWidth - 1, (line+1)*_fontHeight - 1 ); // Underline link hotspots if ( spot->type() == Filter::HotSpot::Link ) { QFontMetrics metrics(font()); // find the baseline (which is the invisible line that the characters in the font sit on, // with some having tails dangling below) int baseline = r.bottom() - metrics.descent(); // find the position of the underline below that int underlinePos = baseline + metrics.underlinePos(); if ( r.contains( mapFromGlobal(QCursor::pos()) ) ) painter.drawLine( r.left() , underlinePos , r.right() , underlinePos ); } // Marker hotspots simply have a transparent rectanglular shape // drawn on top of them else if ( spot->type() == Filter::HotSpot::Marker ) { //TODO - Do not use a hardcoded colour for this painter.fillRect(r,QBrush(QColor(255,0,0,120))); } } } } void TerminalDisplay::drawContents(QPainter &paint, const QRect &rect) { //qDebug("%s %d drawContents and rect x=%d y=%d w=%d h=%d", __FILE__, __LINE__, rect.x(), rect.y(),rect.width(),rect.height()); QPoint tL = contentsRect().topLeft(); // int tLx = tL.x(); int tLy = tL.y(); int tLx = (_contentWidth - _usedColumns * _fontWidth)/2; // int tLy = (_contentHeight - _usedLines * _fontHeight)/2; //qDebug("%d %d %d %d", tLx, tLy, _contentWidth, _usedColumns * _fontWidth); int lux = qMin(_usedColumns-1, qMax(0,(rect.left() - tLx - _leftMargin ) / _fontWidth)); int luy = qMin(_usedLines-1, qMax(0, (rect.top() - tLy - _topMargin ) / _fontHeight)); int rlx = qMin(_usedColumns-1, qMax(0, (rect.right() - tLx - _leftMargin ) / _fontWidth)); int rly = qMin(_usedLines-1, qMax(0, (rect.bottom() - tLy - _topMargin ) / _fontHeight)); const int bufferSize = _usedColumns; QChar *disstrU = new QChar[bufferSize]; for (int y = luy; y <= rly; y++) { quint16 c = _image[loc(lux,y)].character; int x = lux; if(!c && x) x--; // Search for start of multi-column character for (; x <= rlx; x++) { int len = 1; int p = 0; // is this a single character or a sequence of characters ? if ( _image[loc(x,y)].rendition & RE_EXTENDED_CHAR ) { // sequence of characters ushort extendedCharLength = 0; ushort* chars = ExtendedCharTable::instance .lookupExtendedChar(_image[loc(x,y)].charSequence,extendedCharLength); for ( int index = 0 ; index < extendedCharLength ; index++ ) { Q_ASSERT( p < bufferSize ); disstrU[p++] = chars[index]; } } else { // single character c = _image[loc(x,y)].character; if (c) { Q_ASSERT( p < bufferSize ); disstrU[p++] = c; //fontMap(c); } } bool lineDraw = isLineChar(c); bool doubleWidth = (_image[ qMin(loc(x,y)+1,_imageSize) ].character == 0); CharacterColor currentForeground = _image[loc(x,y)].foregroundColor; CharacterColor currentBackground = _image[loc(x,y)].backgroundColor; quint8 currentRendition = _image[loc(x,y)].rendition; while (x+len <= rlx && _image[loc(x+len,y)].foregroundColor == currentForeground && _image[loc(x+len,y)].backgroundColor == currentBackground && _image[loc(x+len,y)].rendition == currentRendition && (_image[ qMin(loc(x+len,y)+1,_imageSize) ].character == 0) == doubleWidth && isLineChar( c = _image[loc(x+len,y)].character) == lineDraw) // Assignment! { if (c) disstrU[p++] = c; //fontMap(c); if (doubleWidth) // assert((_image[loc(x+len,y)+1].character == 0)), see above if condition len++; // Skip trailing part of multi-column character len++; } if ((x+len < _usedColumns) && (!_image[loc(x+len,y)].character)) len++; // Adjust for trailing part of multi-column character bool save__fixedFont = _fixedFont; if (lineDraw) _fixedFont = false; if (doubleWidth) _fixedFont = false; QString unistr(disstrU,p); if (y < _lineProperties.size()) { if (_lineProperties[y] & LINE_DOUBLEWIDTH) { paint.scale(2,1); } if (_lineProperties[y] & LINE_DOUBLEHEIGHT) { paint.scale(1,2); } } //calculate the area in which the text will be drawn QRect textArea = QRect( _leftMargin+tLx+_fontWidth*x , _topMargin+tLy+_fontHeight*y , _fontWidth*len, _fontHeight); //move the calculated area to take account of scaling applied to the painter. //the position of the area from the origin (0,0) is scaled //by the opposite of whatever //transformation has been applied to the painter. this ensures that //painting does actually start from textArea.topLeft() //(instead of textArea.topLeft() * painter-scale) QMatrix inverted = paint.matrix().inverted(); // textArea.moveTopLeft( inverted.map(textArea.topLeft()) ); textArea.moveCenter( inverted.map(textArea.center()) ); //paint text fragment drawTextFragment( paint, textArea, unistr, &_image[loc(x,y)] ); //, //0, //!_isPrinting ); _fixedFont = save__fixedFont; //reset back to single-width, single-height _lines paint.resetMatrix(); if (y < _lineProperties.size()-1) { //double-height _lines are represented by two adjacent _lines //containing the same characters //both _lines will have the LINE_DOUBLEHEIGHT attribute. //If the current line has the LINE_DOUBLEHEIGHT attribute, //we can therefore skip the next line if (_lineProperties[y] & LINE_DOUBLEHEIGHT) y++; } x += len - 1; } } delete [] disstrU; } void TerminalDisplay::blinkEvent() { _blinking = !_blinking; //TODO: Optimise to only repaint the areas of the widget // where there is blinking text // rather than repainting the whole widget. update(); } QRect TerminalDisplay::imageToWidget(const QRect& imageArea) const { //qDebug("%s %d imageToWidget", __FILE__, __LINE__); QRect result; result.setLeft( _leftMargin + _fontWidth * imageArea.left() ); result.setTop( _topMargin + _fontHeight * imageArea.top() ); result.setWidth( _fontWidth * imageArea.width() ); result.setHeight( _fontHeight * imageArea.height() ); return result; } void TerminalDisplay::blinkCursorEvent() { _cursorBlinking = !_cursorBlinking; QRect cursorRect = imageToWidget( QRect(cursorPosition(),QSize(1,1)) ); update(cursorRect); } /* ------------------------------------------------------------------------- */ /* */ /* Resizing */ /* */ /* ------------------------------------------------------------------------- */ void TerminalDisplay::resizeEvent(QResizeEvent*) { updateImageSize(); } void TerminalDisplay::propagateSize() { if (_isFixedSize) { setSize(_columns, _lines); QWidget::setFixedSize(sizeHint()); parentWidget()->adjustSize(); parentWidget()->setFixedSize(parentWidget()->sizeHint()); return; } if (_image) updateImageSize(); } void TerminalDisplay::updateImageSize() { //qDebug("%s %d updateImageSize", __FILE__, __LINE__); Character* oldimg = _image; int oldlin = _lines; int oldcol = _columns; makeImage(); // copy the old image to reduce flicker int lines = qMin(oldlin,_lines); int columns = qMin(oldcol,_columns); if (oldimg) { for (int line = 0; line < lines; line++) { memcpy((void*)&_image[_columns*line], (void*)&oldimg[oldcol*line],columns*sizeof(Character)); } delete[] oldimg; } if (_screenWindow) _screenWindow->setWindowLines(_lines); _resizing = (oldlin!=_lines) || (oldcol!=_columns); if ( _resizing ) { showResizeNotification(); emit changedContentSizeSignal(_contentHeight, _contentWidth); // expose resizeEvent } _resizing = false; } //showEvent and hideEvent are reimplemented here so that it appears to other classes that the //display has been resized when the display is hidden or shown. // //this allows //TODO: Perhaps it would be better to have separate signals for show and hide instead of using //the same signal as the one for a content size change void TerminalDisplay::showEvent(QShowEvent*) { emit changedContentSizeSignal(_contentHeight,_contentWidth); } void TerminalDisplay::hideEvent(QHideEvent*) { emit changedContentSizeSignal(_contentHeight,_contentWidth); } /* ------------------------------------------------------------------------- */ /* */ /* Scrollbar */ /* */ /* ------------------------------------------------------------------------- */ void TerminalDisplay::scrollBarPositionChanged(int) { if ( !_screenWindow ) return; _screenWindow->scrollTo( _scrollBar->value() ); // if the thumb has been moved to the bottom of the _scrollBar then set // the display to automatically track new output, // that is, scroll down automatically // to how new _lines as they are added const bool atEndOfOutput = (_scrollBar->value() == _scrollBar->maximum()); _screenWindow->setTrackOutput( atEndOfOutput ); updateImage(); } void TerminalDisplay::setScroll(int cursor, int slines) { //qDebug("%s %d setScroll", __FILE__, __LINE__); // update _scrollBar if the range or value has changed, // otherwise return // // setting the range or value of a _scrollBar will always trigger // a repaint, so it should be avoided if it is not necessary if ( _scrollBar->minimum() == 0 && _scrollBar->maximum() == (slines - _lines) && _scrollBar->value() == cursor ) { return; } disconnect(_scrollBar, SIGNAL(valueChanged(int)), this, SLOT(scrollBarPositionChanged(int))); _scrollBar->setRange(0,slines - _lines); _scrollBar->setSingleStep(1); _scrollBar->setPageStep(_lines); _scrollBar->setValue(cursor); connect(_scrollBar, SIGNAL(valueChanged(int)), this, SLOT(scrollBarPositionChanged(int))); } void TerminalDisplay::setScrollBarPosition(ScrollBarPosition position) { if (_scrollbarLocation == position) { // return; } if ( position == NoScrollBar ) _scrollBar->hide(); else _scrollBar->show(); _topMargin = _leftMargin = 1; _scrollbarLocation = position; propagateSize(); update(); } void TerminalDisplay::mousePressEvent(QMouseEvent* ev) { if ( _possibleTripleClick && (ev->button()==Qt::LeftButton) ) { mouseTripleClickEvent(ev); return; } if ( !contentsRect().contains(ev->pos()) ) return; if ( !_screenWindow ) return; int charLine; int charColumn; getCharacterPosition(ev->pos(),charLine,charColumn); QPoint pos = QPoint(charColumn,charLine); if ( ev->button() == Qt::LeftButton) { _lineSelectionMode = false; _wordSelectionMode = false; emit isBusySelecting(true); // Keep it steady... // Drag only when the Control key is hold bool selected = false; // The receiver of the testIsSelected() signal will adjust // 'selected' accordingly. //emit testIsSelected(pos.x(), pos.y(), selected); selected = _screenWindow->isSelected(pos.x(),pos.y()); if ((!_ctrlDrag || ev->modifiers() & Qt::ControlModifier) && selected ) { // The user clicked inside selected text dragInfo.state = diPending; dragInfo.start = ev->pos(); } else { // No reason to ever start a drag event dragInfo.state = diNone; _preserveLineBreaks = !( ( ev->modifiers() & Qt::ControlModifier ) && !(ev->modifiers() & Qt::AltModifier) ); _columnSelectionMode = (ev->modifiers() & Qt::AltModifier) && (ev->modifiers() & Qt::ControlModifier); if (_mouseMarks || (ev->modifiers() & Qt::ShiftModifier)) { _screenWindow->clearSelection(); //emit clearSelectionSignal(); pos.ry() += _scrollBar->value(); _iPntSel = _pntSel = pos; _actSel = 1; // left mouse button pressed but nothing selected yet. } else { emit mouseSignal( 0, charColumn + 1, charLine + 1 +_scrollBar->value() -_scrollBar->maximum() , 0); } } } else if ( ev->button() == Qt::MidButton ) { if ( _mouseMarks || (!_mouseMarks && (ev->modifiers() & Qt::ShiftModifier)) ) emitSelection(true,ev->modifiers() & Qt::ControlModifier); else emit mouseSignal( 1, charColumn +1, charLine +1 +_scrollBar->value() -_scrollBar->maximum() , 0); } else if ( ev->button() == Qt::RightButton ) { if (_mouseMarks || (ev->modifiers() & Qt::ShiftModifier)) { emit configureRequest( this, ev->modifiers() & (Qt::ShiftModifier|Qt::ControlModifier), ev->pos() ); } else emit mouseSignal( 2, charColumn +1, charLine +1 +_scrollBar->value() -_scrollBar->maximum() , 0); } } QList TerminalDisplay::filterActions(const QPoint& position) { int charLine, charColumn; getCharacterPosition(position,charLine,charColumn); Filter::HotSpot* spot = _filterChain->hotSpotAt(charLine,charColumn); return spot ? spot->actions() : QList(); } void TerminalDisplay::mouseMoveEvent(QMouseEvent* ev) { int charLine = 0; int charColumn = 0; getCharacterPosition(ev->pos(),charLine,charColumn); // handle filters // change link hot-spot appearance on mouse-over Filter::HotSpot* spot = _filterChain->hotSpotAt(charLine,charColumn); if ( spot && spot->type() == Filter::HotSpot::Link) { QRect previousHotspotArea = _mouseOverHotspotArea; _mouseOverHotspotArea.setCoords( qMin(spot->startColumn() , spot->endColumn()) * _fontWidth, spot->startLine() * _fontHeight, qMax(spot->startColumn() , spot->endColumn()) * _fontHeight, (spot->endLine()+1) * _fontHeight ); // display tooltips when mousing over links // TODO: Extend this to work with filter types other than links const QString& tooltip = spot->tooltip(); if ( !tooltip.isEmpty() ) { QToolTip::showText( mapToGlobal(ev->pos()) , tooltip , this , _mouseOverHotspotArea ); } update( _mouseOverHotspotArea | previousHotspotArea ); } else if ( _mouseOverHotspotArea.isValid() ) { update( _mouseOverHotspotArea ); // set hotspot area to an invalid rectangle _mouseOverHotspotArea = QRect(); } // for auto-hiding the cursor, we need mouseTracking if (ev->buttons() == Qt::NoButton ) return; // if the terminal is interested in mouse movements // then emit a mouse movement signal, unless the shift // key is being held down, which overrides this. if (!_mouseMarks && !(ev->modifiers() & Qt::ShiftModifier)) { int button = 3; if (ev->buttons() & Qt::LeftButton) button = 0; if (ev->buttons() & Qt::MidButton) button = 1; if (ev->buttons() & Qt::RightButton) button = 2; emit mouseSignal( button, charColumn + 1, charLine + 1 +_scrollBar->value() -_scrollBar->maximum(), 1 ); return; } 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 int distance = 10; //KGlobalSettings::dndEventDelay(); if ( ev->x() > dragInfo.start.x() + distance || ev->x() < dragInfo.start.x() - distance || ev->y() > dragInfo.start.y() + distance || ev->y() < dragInfo.start.y() - distance) { // we've left the drag square, we can start a real drag operation now emit isBusySelecting(false); // Ok.. we can breath again. _screenWindow->clearSelection(); doDrag(); } return; } else if (dragInfo.state == diDragging) { // this isn't technically needed because mouseMoveEvent is suppressed during // Qt drag operations, replaced by dragMoveEvent return; } if (_actSel == 0) return; // don't extend selection while pasting if (ev->buttons() & Qt::MidButton) return; extendSelection( ev->pos() ); } #if 0 void TerminalDisplay::setSelectionEnd() { extendSelection( _configureRequestPoint ); } #endif void TerminalDisplay::extendSelection( const QPoint& position ) { QPoint pos = position; if ( !_screenWindow ) return; //if ( !contentsRect().contains(ev->pos()) ) return; QPoint tL = contentsRect().topLeft(); int tLx = tL.x(); int tLy = tL.y(); int scroll = _scrollBar->value(); // we're in the process of moving the mouse with the left button pressed // the mouse cursor will kept caught within the bounds of the text in // this widget. // Adjust position within text area bounds. See FIXME above. QPoint oldpos = pos; if ( pos.x() < tLx+_leftMargin ) pos.setX( tLx+_leftMargin ); if ( pos.x() > tLx+_leftMargin+_usedColumns*_fontWidth-1 ) pos.setX( tLx+_leftMargin+_usedColumns*_fontWidth ); if ( pos.y() < tLy+_topMargin ) pos.setY( tLy+_topMargin ); if ( pos.y() > tLy+_topMargin+_usedLines*_fontHeight-1 ) pos.setY( tLy+_topMargin+_usedLines*_fontHeight-1 ); if ( pos.y() == tLy+_topMargin+_usedLines*_fontHeight-1 ) { _scrollBar->setValue(_scrollBar->value()+yMouseScroll); // scrollforward } if ( pos.y() == tLy+_topMargin ) { _scrollBar->setValue(_scrollBar->value()-yMouseScroll); // scrollback } int charColumn = 0; int charLine = 0; getCharacterPosition(pos,charLine,charColumn); QPoint here = QPoint(charColumn,charLine); //QPoint((pos.x()-tLx-_leftMargin+(_fontWidth/2))/_fontWidth,(pos.y()-tLy-_topMargin)/_fontHeight); QPoint ohere; QPoint _iPntSelCorr = _iPntSel; _iPntSelCorr.ry() -= _scrollBar->value(); QPoint _pntSelCorr = _pntSel; _pntSelCorr.ry() -= _scrollBar->value(); bool swapping = false; if ( _wordSelectionMode ) { // Extend to word boundaries int i; int selClass; bool left_not_right = ( here.y() < _iPntSelCorr.y() || here.y() == _iPntSelCorr.y() && here.x() < _iPntSelCorr.x() ); bool old_left_not_right = ( _pntSelCorr.y() < _iPntSelCorr.y() || _pntSelCorr.y() == _iPntSelCorr.y() && _pntSelCorr.x() < _iPntSelCorr.x() ); swapping = left_not_right != old_left_not_right; // Find left (left_not_right ? from here : from start) QPoint left = left_not_right ? here : _iPntSelCorr; i = loc(left.x(),left.y()); if (i>=0 && i<=_imageSize) { selClass = charClass(_image[i].character); while ( ((left.x()>0) || (left.y()>0 && (_lineProperties[left.y()-1] & LINE_WRAPPED) )) && charClass(_image[i-1].character) == selClass ) { i--; if (left.x()>0) left.rx()--; else {left.rx()=_usedColumns-1; left.ry()--;} } } // Find left (left_not_right ? from start : from here) QPoint right = left_not_right ? _iPntSelCorr : here; i = loc(right.x(),right.y()); if (i>=0 && i<=_imageSize) { selClass = charClass(_image[i].character); while( ((right.x()<_usedColumns-1) || (right.y()<_usedLines-1 && (_lineProperties[right.y()] & LINE_WRAPPED) )) && charClass(_image[i+1].character) == selClass ) { i++; if (right.x()<_usedColumns-1) right.rx()++; else {right.rx()=0; right.ry()++; } } } // Pick which is start (ohere) and which is extension (here) if ( left_not_right ) { here = left; ohere = right; } else { here = right; ohere = left; } ohere.rx()++; } if ( _lineSelectionMode ) { // Extend to complete line bool above_not_below = ( here.y() < _iPntSelCorr.y() ); QPoint above = above_not_below ? here : _iPntSelCorr; QPoint below = above_not_below ? _iPntSelCorr : here; while (above.y()>0 && (_lineProperties[above.y()-1] & LINE_WRAPPED) ) above.ry()--; while (below.y()<_usedLines-1 && (_lineProperties[below.y()] & LINE_WRAPPED) ) below.ry()++; above.setX(0); below.setX(_usedColumns-1); // Pick which is start (ohere) and which is extension (here) if ( above_not_below ) { here = above; ohere = below; } else { here = below; ohere = above; } QPoint newSelBegin = QPoint( ohere.x(), ohere.y() ); swapping = !(_tripleSelBegin==newSelBegin); _tripleSelBegin = newSelBegin; ohere.rx()++; } int offset = 0; if ( !_wordSelectionMode && !_lineSelectionMode ) { int i; int selClass; bool left_not_right = ( here.y() < _iPntSelCorr.y() || here.y() == _iPntSelCorr.y() && here.x() < _iPntSelCorr.x() ); bool old_left_not_right = ( _pntSelCorr.y() < _iPntSelCorr.y() || _pntSelCorr.y() == _iPntSelCorr.y() && _pntSelCorr.x() < _iPntSelCorr.x() ); swapping = left_not_right != old_left_not_right; // Find left (left_not_right ? from here : from start) QPoint left = left_not_right ? here : _iPntSelCorr; // Find left (left_not_right ? from start : from here) QPoint right = left_not_right ? _iPntSelCorr : here; if ( right.x() > 0 && !_columnSelectionMode ) { i = loc(right.x(),right.y()); if (i>=0 && i<=_imageSize) { selClass = charClass(_image[i-1].character); if (selClass == ' ') { while ( right.x() < _usedColumns-1 && charClass(_image[i+1].character) == selClass && (right.y()<_usedLines-1) && !(_lineProperties[right.y()] & LINE_WRAPPED)) { i++; right.rx()++; } if (right.x() < _usedColumns-1) right = left_not_right ? _iPntSelCorr : here; else right.rx()++; // will be balanced later because of offset=-1; } } } // Pick which is start (ohere) and which is extension (here) if ( left_not_right ) { here = left; ohere = right; offset = 0; } else { here = right; ohere = left; offset = -1; } } if ((here == _pntSelCorr) && (scroll == _scrollBar->value())) return; // not moved if (here == ohere) return; // It's not left, it's not right. if ( _actSel < 2 || swapping ) { if ( _columnSelectionMode && !_lineSelectionMode && !_wordSelectionMode ) { _screenWindow->setSelectionStart( ohere.x() , ohere.y() , true ); } else { _screenWindow->setSelectionStart( ohere.x()-1-offset , ohere.y() , false ); } } _actSel = 2; // within selection _pntSel = here; _pntSel.ry() += _scrollBar->value(); if ( _columnSelectionMode && !_lineSelectionMode && !_wordSelectionMode ) { _screenWindow->setSelectionEnd( here.x() , here.y() ); } else { _screenWindow->setSelectionEnd( here.x()+offset , here.y() ); } } void TerminalDisplay::mouseReleaseEvent(QMouseEvent* ev) { if ( !_screenWindow ) return; int charLine; int charColumn; getCharacterPosition(ev->pos(),charLine,charColumn); if ( ev->button() == Qt::LeftButton) { emit isBusySelecting(false); if(dragInfo.state == diPending) { // We had a drag event pending but never confirmed. Kill selection _screenWindow->clearSelection(); //emit clearSelectionSignal(); } else { if ( _actSel > 1 ) { setSelection( _screenWindow->selectedText(_preserveLineBreaks) ); } _actSel = 0; //FIXME: emits a release event even if the mouse is // outside the range. The procedure used in `mouseMoveEvent' // applies here, too. if (!_mouseMarks && !(ev->modifiers() & Qt::ShiftModifier)) emit mouseSignal( 3, // release charColumn + 1, charLine + 1 +_scrollBar->value() -_scrollBar->maximum() , 0); } dragInfo.state = diNone; } if ( !_mouseMarks && ((ev->button() == Qt::RightButton && !(ev->modifiers() & Qt::ShiftModifier)) || ev->button() == Qt::MidButton) ) { emit mouseSignal( 3, charColumn + 1, charLine + 1 +_scrollBar->value() -_scrollBar->maximum() , 0); } } void TerminalDisplay::getCharacterPosition(const QPoint& widgetPoint,int& line,int& column) const { column = (widgetPoint.x() + _fontWidth/2 -contentsRect().left()-_leftMargin) / _fontWidth; line = (widgetPoint.y()-contentsRect().top()-_topMargin) / _fontHeight; if ( line < 0 ) line = 0; if ( column < 0 ) column = 0; if ( line >= _usedLines ) line = _usedLines-1; // the column value returned can be equal to _usedColumns, which // is the position just after the last character displayed in a line. // // this is required so that the user can select characters in the right-most // column (or left-most for right-to-left input) if ( column > _usedColumns ) column = _usedColumns; } void TerminalDisplay::updateLineProperties() { if ( !_screenWindow ) return; _lineProperties = _screenWindow->getLineProperties(); } void TerminalDisplay::mouseDoubleClickEvent(QMouseEvent* ev) { if ( ev->button() != Qt::LeftButton) return; if ( !_screenWindow ) return; int charLine = 0; int charColumn = 0; getCharacterPosition(ev->pos(),charLine,charColumn); QPoint pos(charColumn,charLine); // pass on double click as two clicks. if (!_mouseMarks && !(ev->modifiers() & Qt::ShiftModifier)) { // Send just _ONE_ click event, since the first click of the double click // was already sent by the click handler emit mouseSignal( 0, pos.x()+1, pos.y()+1 +_scrollBar->value() -_scrollBar->maximum(), 0 ); // left button return; } _screenWindow->clearSelection(); QPoint bgnSel = pos; QPoint endSel = pos; int i = loc(bgnSel.x(),bgnSel.y()); _iPntSel = bgnSel; _iPntSel.ry() += _scrollBar->value(); _wordSelectionMode = true; // find word boundaries... int selClass = charClass(_image[i].character); { // find the start of the word int x = bgnSel.x(); while ( ((x>0) || (bgnSel.y()>0 && (_lineProperties[bgnSel.y()-1] & LINE_WRAPPED) )) && charClass(_image[i-1].character) == selClass ) { i--; if (x>0) x--; else { x=_usedColumns-1; bgnSel.ry()--; } } bgnSel.setX(x); _screenWindow->setSelectionStart( bgnSel.x() , bgnSel.y() , false ); // find the end of the word i = loc( endSel.x(), endSel.y() ); x = endSel.x(); while( ((x<_usedColumns-1) || (endSel.y()<_usedLines-1 && (_lineProperties[endSel.y()] & LINE_WRAPPED) )) && charClass(_image[i+1].character) == selClass ) { i++; if (x<_usedColumns-1) x++; else { x=0; endSel.ry()++; } } endSel.setX(x); // In word selection mode don't select @ (64) if at end of word. if ( ( QChar( _image[i].character ) == '@' ) && ( ( endSel.x() - bgnSel.x() ) > 0 ) ) endSel.setX( x - 1 ); _actSel = 2; // within selection _screenWindow->setSelectionEnd( endSel.x() , endSel.y() ); setSelection( _screenWindow->selectedText(_preserveLineBreaks) ); } _possibleTripleClick=true; QTimer::singleShot(QApplication::doubleClickInterval(),this, SLOT(tripleClickTimeout())); } void TerminalDisplay::wheelEvent( QWheelEvent* ev ) { if (ev->orientation() != Qt::Vertical) return; if ( _mouseMarks ) _scrollBar->event(ev); else { int charLine; int charColumn; getCharacterPosition( ev->pos() , charLine , charColumn ); emit mouseSignal( ev->delta() > 0 ? 4 : 5, charColumn + 1, charLine + 1 +_scrollBar->value() -_scrollBar->maximum() , 0); } } void TerminalDisplay::tripleClickTimeout() { _possibleTripleClick=false; } void TerminalDisplay::mouseTripleClickEvent(QMouseEvent* ev) { if ( !_screenWindow ) return; int charLine; int charColumn; getCharacterPosition(ev->pos(),charLine,charColumn); _iPntSel = QPoint(charColumn,charLine); _screenWindow->clearSelection(); _lineSelectionMode = true; _wordSelectionMode = false; _actSel = 2; // within selection emit isBusySelecting(true); // Keep it steady... while (_iPntSel.y()>0 && (_lineProperties[_iPntSel.y()-1] & LINE_WRAPPED) ) _iPntSel.ry()--; if (_tripleClickMode == SelectForwardsFromCursor) { // find word boundary start int i = loc(_iPntSel.x(),_iPntSel.y()); int selClass = charClass(_image[i].character); int x = _iPntSel.x(); while ( ((x>0) || (_iPntSel.y()>0 && (_lineProperties[_iPntSel.y()-1] & LINE_WRAPPED) ) ) && charClass(_image[i-1].character) == selClass ) { i--; if (x>0) x--; else { x=_columns-1; _iPntSel.ry()--; } } _screenWindow->setSelectionStart( x , _iPntSel.y() , false ); _tripleSelBegin = QPoint( x, _iPntSel.y() ); } else if (_tripleClickMode == SelectWholeLine) { _screenWindow->setSelectionStart( 0 , _iPntSel.y() , false ); _tripleSelBegin = QPoint( 0, _iPntSel.y() ); } while (_iPntSel.y()<_lines-1 && (_lineProperties[_iPntSel.y()] & LINE_WRAPPED) ) _iPntSel.ry()++; _screenWindow->setSelectionEnd( _columns - 1 , _iPntSel.y() ); setSelection(_screenWindow->selectedText(_preserveLineBreaks)); _iPntSel.ry() += _scrollBar->value(); } bool TerminalDisplay::focusNextPrevChild( bool next ) { if (next) return false; // This disables changing the active part in konqueror // when pressing Tab return QWidget::focusNextPrevChild( next ); } int TerminalDisplay::charClass(quint16 ch) const { QChar qch=QChar(ch); if ( qch.isSpace() ) return ' '; if ( qch.isLetterOrNumber() || _wordCharacters.contains(qch, Qt::CaseInsensitive ) ) return 'a'; // Everything else is weird return 1; } void TerminalDisplay::setWordCharacters(const QString& wc) { _wordCharacters = wc; } void TerminalDisplay::setUsesMouse(bool on) { _mouseMarks = on; setCursor( _mouseMarks ? Qt::IBeamCursor : Qt::ArrowCursor ); } bool TerminalDisplay::usesMouse() const { return _mouseMarks; } /* ------------------------------------------------------------------------- */ /* */ /* Clipboard */ /* */ /* ------------------------------------------------------------------------- */ #undef KeyPress void TerminalDisplay::emitSelection(bool useXselection,bool appendReturn) { if ( !_screenWindow ) return; // Paste Clipboard by simulating keypress events QString text = QApplication::clipboard()->text(useXselection ? QClipboard::Selection : QClipboard::Clipboard); if(appendReturn) text.append("\r"); if ( ! text.isEmpty() ) { text.replace("\n", "\r"); QKeyEvent e(QEvent::KeyPress, 0, Qt::NoModifier, text); emit keyPressedSignal(&e); // expose as a big fat keypress event _screenWindow->clearSelection(); } } void TerminalDisplay::setSelection(const QString& t) { QApplication::clipboard()->setText(t, QClipboard::Selection); } void TerminalDisplay::copyClipboard() { if ( !_screenWindow ) return; QString text = _screenWindow->selectedText(_preserveLineBreaks); QApplication::clipboard()->setText(text); } void TerminalDisplay::pasteClipboard() { emitSelection(false,false); } void TerminalDisplay::pasteSelection() { emitSelection(true,false); } /* ------------------------------------------------------------------------- */ /* */ /* Keyboard */ /* */ /* ------------------------------------------------------------------------- */ void TerminalDisplay::setFlowControlWarningEnabled( bool enable ) { _flowControlWarningEnabled = enable; // if the dialog is currently visible and the flow control warning has // been disabled then hide the dialog if (!enable) outputSuspended(false); } void TerminalDisplay::keyPressEvent( QKeyEvent* event ) { //qDebug("%s %d keyPressEvent and key is %d", __FILE__, __LINE__, event->key()); bool emitKeyPressSignal = true; // XonXoff flow control if (event->modifiers() & Qt::ControlModifier && _flowControlWarningEnabled) { if ( event->key() == Qt::Key_S ) { //qDebug("%s %d keyPressEvent, output suspended", __FILE__, __LINE__); emit flowControlKeyPressed(true /*output suspended*/); } else if ( event->key() == Qt::Key_Q ) { //qDebug("%s %d keyPressEvent, output enabled", __FILE__, __LINE__); emit flowControlKeyPressed(false /*output enabled*/); } } // Keyboard-based navigation if ( event->modifiers() == Qt::ShiftModifier ) { bool update = true; if ( event->key() == Qt::Key_PageUp ) { //qDebug("%s %d pageup", __FILE__, __LINE__); _screenWindow->scrollBy( ScreenWindow::ScrollPages , -1 ); } else if ( event->key() == Qt::Key_PageDown ) { //qDebug("%s %d pagedown", __FILE__, __LINE__); _screenWindow->scrollBy( ScreenWindow::ScrollPages , 1 ); } else if ( event->key() == Qt::Key_Up ) { //qDebug("%s %d keyup", __FILE__, __LINE__); _screenWindow->scrollBy( ScreenWindow::ScrollLines , -1 ); } else if ( event->key() == Qt::Key_Down ) { //qDebug("%s %d keydown", __FILE__, __LINE__); _screenWindow->scrollBy( ScreenWindow::ScrollLines , 1 ); } else { update = false; } if ( update ) { //qDebug("%s %d updating", __FILE__, __LINE__); _screenWindow->setTrackOutput( _screenWindow->atEndOfOutput() ); updateLineProperties(); updateImage(); // do not send key press to terminal emitKeyPressSignal = false; } } _screenWindow->setTrackOutput( true ); _actSel=0; // Key stroke implies a screen update, so TerminalDisplay won't // know where the current selection is. if (_hasBlinkingCursor) { _blinkCursorTimer->start(BLINK_DELAY); if (_cursorBlinking) blinkCursorEvent(); else _cursorBlinking = false; } if ( emitKeyPressSignal ) emit keyPressedSignal(event); event->accept(); } void TerminalDisplay::inputMethodEvent( QInputMethodEvent* event ) { QKeyEvent keyEvent(QEvent::KeyPress,0,Qt::NoModifier,event->commitString()); emit keyPressedSignal(&keyEvent); _inputMethodData.preeditString = event->preeditString(); update(preeditRect() | _inputMethodData.previousPreeditRect); event->accept(); } QVariant TerminalDisplay::inputMethodQuery( Qt::InputMethodQuery query ) const { const QPoint cursorPos = _screenWindow ? _screenWindow->cursorPosition() : QPoint(0,0); switch ( query ) { case Qt::ImMicroFocus: return imageToWidget(QRect(cursorPos.x(),cursorPos.y(),1,1)); break; case Qt::ImFont: return font(); break; case Qt::ImCursorPosition: // return the cursor position within the current line return cursorPos.x(); break; case Qt::ImSurroundingText: { // return the text from the current line QString lineText; QTextStream stream(&lineText); PlainTextDecoder decoder; decoder.begin(&stream); decoder.decodeLine(&_image[loc(0,cursorPos.y())],_usedColumns,_lineProperties[cursorPos.y()]); decoder.end(); return lineText; } break; case Qt::ImCurrentSelection: return QString(); break; } return QVariant(); } bool TerminalDisplay::event( QEvent *e ) { if ( e->type() == QEvent::ShortcutOverride ) { QKeyEvent* keyEvent = static_cast( e ); // a check to see if keyEvent->text() is empty is used // to avoid intercepting the press of the modifier key on its own. // // this is important as it allows a press and release of the Alt key // on its own to focus the menu bar, making it possible to // work with the menu without using the mouse if ( (keyEvent->modifiers() == Qt::AltModifier) && !keyEvent->text().isEmpty() ) { keyEvent->accept(); return true; } // Override any of the following shortcuts because // they are needed by the terminal int keyCode = keyEvent->key() | keyEvent->modifiers(); switch ( keyCode ) { // list is taken from the QLineEdit::event() code case Qt::Key_Tab: case Qt::Key_Delete: case Qt::Key_Home: case Qt::Key_End: case Qt::Key_Backspace: case Qt::Key_Left: case Qt::Key_Right: keyEvent->accept(); return true; } } return QWidget::event( e ); } void TerminalDisplay::setBellMode(int mode) { _bellMode=mode; } void TerminalDisplay::enableBell() { _allowBell = true; } void TerminalDisplay::bell(const QString&) { if (_bellMode==NoBell) return; //limit the rate at which bells can occur //...mainly for sound effects where rapid bells in sequence //produce a horrible noise if ( _allowBell ) { _allowBell = false; QTimer::singleShot(500,this,SLOT(enableBell())); if (_bellMode==SystemBeepBell) { // KNotification::beep(); } else if (_bellMode==NotifyBell) { // KNotification::event("BellVisible", message,QPixmap(),this); } else if (_bellMode==VisualBell) { swapColorTable(); QTimer::singleShot(200,this,SLOT(swapColorTable())); } } } void TerminalDisplay::swapColorTable() { ColorEntry color = _colorTable[1]; _colorTable[1]=_colorTable[0]; _colorTable[0]= color; _colorsInverted = !_colorsInverted; update(); } void TerminalDisplay::clearImage() { // We initialize _image[_imageSize] too. See makeImage() for (int i = 0; i <= _imageSize; i++) { _image[i].character = ' '; _image[i].foregroundColor = CharacterColor(COLOR_SPACE_DEFAULT, DEFAULT_FORE_COLOR); _image[i].backgroundColor = CharacterColor(COLOR_SPACE_DEFAULT, DEFAULT_BACK_COLOR); _image[i].rendition = DEFAULT_RENDITION; } } void TerminalDisplay::calcGeometry() { _scrollBar->resize(QApplication::style()->pixelMetric(QStyle::PM_ScrollBarExtent), contentsRect().height()); switch(_scrollbarLocation) { case NoScrollBar : _leftMargin = DEFAULT_LEFT_MARGIN; _contentWidth = contentsRect().width() - 2 * DEFAULT_LEFT_MARGIN; break; case ScrollBarLeft : _leftMargin = DEFAULT_LEFT_MARGIN + _scrollBar->width(); _contentWidth = contentsRect().width() - 2 * DEFAULT_LEFT_MARGIN - _scrollBar->width(); _scrollBar->move(contentsRect().topLeft()); break; case ScrollBarRight: _leftMargin = DEFAULT_LEFT_MARGIN; _contentWidth = contentsRect().width() - 2 * DEFAULT_LEFT_MARGIN - _scrollBar->width(); _scrollBar->move(contentsRect().topRight() - QPoint(_scrollBar->width()-1,0)); break; } _topMargin = DEFAULT_TOP_MARGIN; _contentHeight = contentsRect().height() - 2 * DEFAULT_TOP_MARGIN + /* mysterious */ 1; if (!_isFixedSize) { // ensure that display is always at least one column wide _columns = qMax(1,_contentWidth / _fontWidth); _usedColumns = qMin(_usedColumns,_columns); // ensure that display is always at least one line high _lines = qMax(1,_contentHeight / _fontHeight); _usedLines = qMin(_usedLines,_lines); } } void TerminalDisplay::makeImage() { //qDebug("%s %d makeImage", __FILE__, __LINE__); calcGeometry(); // confirm that array will be of non-zero size, since the painting code // assumes a non-zero array length Q_ASSERT( _lines > 0 && _columns > 0 ); Q_ASSERT( _usedLines <= _lines && _usedColumns <= _columns ); _imageSize=_lines*_columns; // We over-commit one character so that we can be more relaxed in dealing with // certain boundary conditions: _image[_imageSize] is a valid but unused position _image = new Character[_imageSize+1]; clearImage(); } // calculate the needed size void TerminalDisplay::setSize(int columns, int lines) { //FIXME - Not quite correct, a small amount of additional space // will be used for margins, the scrollbar etc. // we need to allow for this so that '_size' does allow // enough room for the specified number of columns and lines to fit QSize newSize = QSize( columns * _fontWidth , lines * _fontHeight ); if ( newSize != size() ) { _size = newSize; updateGeometry(); } } void TerminalDisplay::setFixedSize(int cols, int lins) { _isFixedSize = true; //ensure that display is at least one line by one column in size _columns = qMax(1,cols); _lines = qMax(1,lins); _usedColumns = qMin(_usedColumns,_columns); _usedLines = qMin(_usedLines,_lines); if (_image) { delete[] _image; makeImage(); } setSize(cols, lins); QWidget::setFixedSize(_size); } QSize TerminalDisplay::sizeHint() const { return _size; } /* --------------------------------------------------------------------- */ /* */ /* Drag & Drop */ /* */ /* --------------------------------------------------------------------- */ void TerminalDisplay::dragEnterEvent(QDragEnterEvent* event) { if (event->mimeData()->hasFormat("text/plain")) event->acceptProposedAction(); } void TerminalDisplay::dropEvent(QDropEvent* event) { // KUrl::List urls = KUrl::List::fromMimeData(event->mimeData()); QString dropText; /* if (!urls.isEmpty()) { for ( int i = 0 ; i < urls.count() ; i++ ) { KUrl url = KIO::NetAccess::mostLocalUrl( urls[i] , 0 ); QString urlText; if (url.isLocalFile()) urlText = url.path(); else urlText = url.url(); // in future it may be useful to be able to insert file names with drag-and-drop // without quoting them (this only affects paths with spaces in) urlText = KShell::quoteArg(urlText); dropText += urlText; if ( i != urls.count()-1 ) dropText += ' '; } } else { dropText = event->mimeData()->text(); } */ if(event->mimeData()->hasFormat("text/plain")) { emit sendStringToEmu(dropText.toLocal8Bit()); } } void TerminalDisplay::doDrag() { dragInfo.state = diDragging; dragInfo.dragObject = new QDrag(this); QMimeData *mimeData = new QMimeData; mimeData->setText(QApplication::clipboard()->text(QClipboard::Selection)); dragInfo.dragObject->setMimeData(mimeData); dragInfo.dragObject->start(Qt::CopyAction); // Don't delete the QTextDrag object. Qt will delete it when it's done with it. } void TerminalDisplay::outputSuspended(bool suspended) { //create the label when this function is first called if (!_outputSuspendedLabel) { //This label includes a link to an English language website //describing the 'flow control' (Xon/Xoff) feature found in almost //all terminal emulators. //If there isn't a suitable article available in the target language the link //can simply be removed. _outputSuspendedLabel = new QLabel( ("Output has been " "suspended" " by pressing Ctrl+S." " Press Ctrl+Q to resume."), this ); QPalette palette(_outputSuspendedLabel->palette()); palette.setColor(QPalette::Normal, QPalette::WindowText, QColor(Qt::white)); palette.setColor(QPalette::Normal, QPalette::Window, QColor(Qt::black)); // KColorScheme::adjustForeground(palette,KColorScheme::NeutralText); // KColorScheme::adjustBackground(palette,KColorScheme::NeutralBackground); _outputSuspendedLabel->setPalette(palette); _outputSuspendedLabel->setAutoFillBackground(true); _outputSuspendedLabel->setBackgroundRole(QPalette::Base); _outputSuspendedLabel->setFont(QApplication::font()); _outputSuspendedLabel->setMargin(5); //enable activation of "Xon/Xoff" link in label _outputSuspendedLabel->setTextInteractionFlags(Qt::LinksAccessibleByMouse | Qt::LinksAccessibleByKeyboard); _outputSuspendedLabel->setOpenExternalLinks(true); _outputSuspendedLabel->setVisible(false); _gridLayout->addWidget(_outputSuspendedLabel); _gridLayout->addItem( new QSpacerItem(0,0,QSizePolicy::Expanding, QSizePolicy::Expanding), 1,0); } _outputSuspendedLabel->setVisible(suspended); } uint TerminalDisplay::lineSpacing() const { return _lineSpacing; } void TerminalDisplay::setLineSpacing(uint i) { _lineSpacing = i; setVTFont(font()); // Trigger an update. } //#include "moc_TerminalDisplay.cpp"