/**
* This file is part of the HTML widget for KDE.
*
* Copyright (C) 1999-2003 Lars Knoll (knoll@kde.org)
* Copyright (C) 2000-2003 Dirk Mueller (mueller@kde.org)
* Copyright (C) 2003 Apple Computer, Inc.
* Copyright (C) 2004 Germain Garand (germain@ebooksfrance.org)
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* 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 "render_replaced.h"
#include "render_layer.h"
#include "render_canvas.h"
#include "render_line.h"
#include "render_arena.h"
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include "khtml_ext.h"
#include "khtmlview.h"
#include "xml/dom2_eventsimpl.h"
#include "khtml_part.h"
#include "xml/dom_docimpl.h"
#include
bool khtml::allowWidgetPaintEvents = false;
using namespace khtml;
using namespace DOM;
RenderReplaced::RenderReplaced(DOM::NodeImpl* node)
: RenderBox(node)
{
// init RenderObject attributes
setReplaced(true);
m_intrinsicWidth = 300;
m_intrinsicHeight = 150;
}
void RenderReplaced::calcMinMaxWidth()
{
KHTMLAssert( !minMaxKnown());
#ifdef DEBUG_LAYOUT
kdDebug( 6040 ) << "RenderReplaced::calcMinMaxWidth() known=" << minMaxKnown() << endl;
#endif
m_width = calcReplacedWidth();
m_width = calcBoxWidth( m_width );
if ( style()->width().isPercent() || style()->height().isPercent() ||
style()->maxWidth().isPercent() || style()->maxHeight().isPercent() ||
style()->minWidth().isPercent() || style()->minHeight().isPercent() ) {
m_minWidth = 0;
m_maxWidth = m_width;
}
else
m_minWidth = m_maxWidth = m_width;
setMinMaxKnown();
}
void RenderReplaced::position(InlineBox* box, int /*from*/, int /*len*/, bool /*reverse*/)
{
setPos( box->xPos(), box->yPos() );
}
// -----------------------------------------------------------------------------
RenderWidget::RenderWidget(DOM::NodeImpl* node)
: RenderReplaced(node)
{
m_widget = 0;
// a widget doesn't support being anonymous
assert(!isAnonymous());
m_view = node->getDocument()->view();
m_arena.reset(renderArena());
m_resizePending = false;
m_discardResizes = false;
m_isKHTMLWidget = false;
m_needsMask = false;
// this is no real reference counting, its just there
// to make sure that we're not deleted while we're recursed
// in an eventFilter of the widget
ref();
}
void RenderWidget::detach()
{
remove();
deleteInlineBoxes();
if ( m_widget ) {
if ( m_view ) {
m_view->setWidgetVisible(this, false);
m_view->removeChild( m_widget );
}
m_widget->removeEventFilter( this );
m_widget->setMouseTracking( false );
}
deref();
}
RenderWidget::~RenderWidget()
{
KHTMLAssert( refCount() <= 0 );
if(m_widget) {
m_widget->hide();
m_widget->deleteLater();
}
}
class TQWidgetResizeEvent : public TQEvent
{
public:
enum { Type = TQEvent::User + 0xbee };
TQWidgetResizeEvent( int _w, int _h ) :
TQEvent( ( TQEvent::Type ) Type ), w( _w ), h( _h ) {}
int w;
int h;
};
void RenderWidget::resizeWidget( int w, int h )
{
// ugly hack to limit the maximum size of the widget ( as X11 has problems if
// its bigger )
h = kMin( h, 3072 );
w = kMin( w, 2000 );
if (m_widget->width() != w || m_widget->height() != h) {
m_resizePending = isKHTMLWidget();
ref();
element()->ref();
TQApplication::postEvent( this, new TQWidgetResizeEvent( w, h ) );
element()->deref();
deref();
}
}
void RenderWidget::cancelPendingResize()
{
if (!m_widget)
return;
m_discardResizes = true;
TQApplication::sendPostedEvents(this, TQWidgetResizeEvent::Type);
m_discardResizes = false;
}
bool RenderWidget::event( TQEvent *e )
{
if ( m_widget && (e->type() == (TQEvent::Type)TQWidgetResizeEvent::Type) ) {
m_resizePending = false;
if (m_discardResizes)
return true;
TQWidgetResizeEvent *re = static_cast(e);
m_widget->resize( re->w, re->h );
tqrepaint();
}
// eat all events - except if this is a frame (in which case KHTMLView handles it all)
if ( ::tqqt_cast( m_widget ) )
return TQObject::event( e );
return true;
}
void RenderWidget::flushWidgetResizes() //static
{
TQApplication::sendPostedEvents( 0, TQWidgetResizeEvent::Type );
}
void RenderWidget::setQWidget(TQWidget *widget)
{
if (widget != m_widget)
{
if (m_widget) {
m_widget->removeEventFilter(this);
disconnect( m_widget, TQT_SIGNAL( destroyed()), this, TQT_SLOT( slotWidgetDestructed()));
m_widget->hide();
m_widget->deleteLater(); //Might happen due to event on the widget, so be careful
m_widget = 0;
}
m_widget = widget;
if (m_widget) {
connect( m_widget, TQT_SIGNAL( destroyed()), this, TQT_SLOT( slotWidgetDestructed()));
m_widget->installEventFilter(this);
if ( (m_isKHTMLWidget = !strcmp(m_widget->name(), "__khtml")) && !::tqqt_cast(m_widget))
m_widget->setBackgroundMode( TQWidget::NoBackground );
if (m_widget->focusPolicy() > TQ_StrongFocus)
m_widget->setFocusPolicy(TQ_StrongFocus);
// if we've already received a layout, apply the calculated space to the
// widget immediately, but we have to have really been full constructed (with a non-null
// style pointer).
if (!needsLayout() && style()) {
resizeWidget( m_width-borderLeft()-borderRight()-paddingLeft()-paddingRight(),
m_height-borderTop()-borderBottom()-paddingTop()-paddingBottom() );
}
else
setPos(xPos(), -500000);
}
m_view->setWidgetVisible(this, false);
m_view->addChild( m_widget, 0, -500000);
if ( m_widget ) m_widget->hide();
m_resizePending = false;
}
}
void RenderWidget::layout( )
{
KHTMLAssert( needsLayout() );
KHTMLAssert( minMaxKnown() );
if ( m_widget ) {
resizeWidget( m_width-borderLeft()-borderRight()-paddingLeft()-paddingRight(),
m_height-borderTop()-borderBottom()-paddingTop()-paddingBottom() );
if (!isKHTMLWidget() && !isFrame() && !m_needsMask) {
m_needsMask = true;
RenderLayer* rl = enclosingStackingContext();
RenderLayer* el = enclosingLayer();
while (rl && el && el != rl) {
if (el->renderer()->style()->position() != STATIC) {
m_needsMask = false;
break;
}
el = el->parent();
}
if (m_needsMask) {
if (rl) rl->setHasOverlaidWidgets();
canvas()->setNeedsWidgetMasks();
}
}
}
setNeedsLayout(false);
}
void RenderWidget::updateFromElement()
{
if (m_widget) {
// Color:
TQColor color = style()->color();
TQColor backgroundColor = style()->backgroundColor();
if ( color.isValid() || backgroundColor.isValid() ) {
TQPalette pal(TQApplication::palette(m_widget));
int contrast_ = KGlobalSettings::contrast();
int highlightVal = 100 + (2*contrast_+4)*16/10;
int lowlightVal = 100 + (2*contrast_+4)*10;
if (backgroundColor.isValid()) {
if (!isKHTMLWidget())
widget()->setEraseColor(backgroundColor );
for ( int i = 0; i < TQPalette::NColorGroups; ++i ) {
pal.setColor( (TQPalette::ColorGroup)i, TQColorGroup::Background, backgroundColor );
pal.setColor( (TQPalette::ColorGroup)i, TQColorGroup::Light, backgroundColor.light(highlightVal) );
pal.setColor( (TQPalette::ColorGroup)i, TQColorGroup::Dark, backgroundColor.dark(lowlightVal) );
pal.setColor( (TQPalette::ColorGroup)i, TQColorGroup::Mid, backgroundColor.dark(120) );
pal.setColor( (TQPalette::ColorGroup)i, TQColorGroup::Midlight, backgroundColor.light(110) );
pal.setColor( (TQPalette::ColorGroup)i, TQColorGroup::Button, backgroundColor );
pal.setColor( (TQPalette::ColorGroup)i, TQColorGroup::Base, backgroundColor );
}
}
if ( color.isValid() ) {
struct ColorSet {
TQPalette::ColorGroup cg;
TQColorGroup::ColorRole cr;
};
const struct ColorSet toSet [] = {
{ TQPalette::Active, TQColorGroup::Foreground },
{ TQPalette::Active, TQColorGroup::ButtonText },
{ TQPalette::Active, TQColorGroup::Text },
{ TQPalette::Inactive, TQColorGroup::Foreground },
{ TQPalette::Inactive, TQColorGroup::ButtonText },
{ TQPalette::Inactive, TQColorGroup::Text },
{ TQPalette::Disabled,TQColorGroup::ButtonText },
{ TQPalette::NColorGroups, TQColorGroup::NColorRoles },
};
const ColorSet *set = toSet;
while( set->cg != TQPalette::NColorGroups ) {
pal.setColor( set->cg, set->cr, color );
++set;
}
TQColor disfg = color;
int h, s, v;
disfg.hsv( &h, &s, &v );
if (v > 128)
// dark bg, light fg - need a darker disabled fg
disfg = disfg.dark(lowlightVal);
else if (disfg != Qt::black)
// light bg, dark fg - need a lighter disabled fg - but only if !black
disfg = disfg.light(highlightVal);
else
// black fg - use darkgray disabled fg
disfg = Qt::darkGray;
pal.setColor(TQPalette::Disabled,TQColorGroup::Foreground,disfg);
}
m_widget->setPalette(pal);
}
else
m_widget->unsetPalette();
// Border:
TQFrame* frame = ::tqqt_cast(m_widget);
if (frame) {
if (shouldPaintBackgroundOrBorder())
{
frame->setFrameShape(TQFrame::NoFrame);
}
}
}
RenderReplaced::updateFromElement();
}
void RenderWidget::slotWidgetDestructed()
{
if (m_view)
m_view->setWidgetVisible(this, false);
m_widget = 0;
}
void RenderWidget::setStyle(RenderStyle *_style)
{
RenderReplaced::setStyle(_style);
if(m_widget)
{
m_widget->setFont(style()->font());
if (style()->visibility() != VISIBLE) {
if (m_view)
m_view->setWidgetVisible(this, false);
m_widget->hide();
}
}
// Don't paint borders if the border-style is native
// or borders are not supported on this widget
if (!canHaveBorder() ||
(style()->borderLeftStyle() == BNATIVE &&
style()->borderRightStyle() == BNATIVE &&
style()->borderTopStyle() == BNATIVE &&
style()->borderBottomStyle() == BNATIVE))
{
setShouldPaintBackgroundOrBorder(false);
}
}
void RenderWidget::paint(PaintInfo& paintInfo, int _tx, int _ty)
{
_tx += m_x;
_ty += m_y;
if (shouldPaintBackgroundOrBorder() &&
(paintInfo.phase == PaintActionChildBackground || paintInfo.phase == PaintActionChildBackgrounds))
paintBoxDecorations(paintInfo, _tx, _ty);
if (!m_widget || !m_view || paintInfo.phase != PaintActionForeground)
return;
// not visible or not even once layouted
if (style()->visibility() != VISIBLE || m_y <= -500000 || m_resizePending )
return;
if ( (_ty > paintInfo.r.bottom()) || (_ty + m_height <= paintInfo.r.top()) ||
(_tx + m_width <= paintInfo.r.left()) || (_tx > paintInfo.r.right()) )
return;
int xPos = _tx+borderLeft()+paddingLeft();
int yPos = _ty+borderTop()+paddingTop();
bool khtmlw = isKHTMLWidget();
int childw = m_widget->width();
int childh = m_widget->height();
if ( (childw == 2000 || childh == 3072) && m_widget->inherits( "KHTMLView" ) ) {
KHTMLView *vw = static_cast(m_widget);
int cy = m_view->contentsY();
int ch = m_view->visibleHeight();
int childx = m_view->childX( m_widget );
int childy = m_view->childY( m_widget );
int xNew = xPos;
int yNew = childy;
// qDebug("cy=%d, ch=%d, childy=%d, childh=%d", cy, ch, childy, childh );
if ( childh == 3072 ) {
if ( cy + ch > childy + childh ) {
yNew = cy + ( ch - childh )/2;
} else if ( cy < childy ) {
yNew = cy + ( ch - childh )/2;
}
// qDebug("calculated yNew=%d", yNew);
}
yNew = kMin( yNew, yPos + m_height - childh );
yNew = kMax( yNew, yPos );
if ( yNew != childy || xNew != childx ) {
if ( vw->contentsHeight() < yNew - yPos + childh )
vw->resizeContents( vw->contentsWidth(), yNew - yPos + childh );
vw->setContentsPos( xNew - xPos, yNew - yPos );
}
xPos = xNew;
yPos = yNew;
}
m_view->setWidgetVisible(this, true);
m_view->addChild(m_widget, xPos, yPos );
m_widget->show();
if (khtmlw)
paintWidget(paintInfo, m_widget, xPos, yPos);
}
#include
// The PaintBuffer class provides a shared buffer for widget painting.
//
// It will grow to encompass the biggest widget encountered, in order to avoid
// constantly resizing.
// When it grows over maxPixelBuffering, it periodically checks if such a size
// is still needed. If not, it shrinks down to the biggest size < maxPixelBuffering
// that was requested during the overflow lapse.
class PaintBuffer: public TQObject
{
public:
static const int maxPixelBuffering = 320*200;
static const int leaseTime = 20*1000;
static TQPixmap *grab( TQSize s = TQSize() ) {
if (!m_inst)
m_inst = new PaintBuffer;
return m_inst->getBuf( s );
}
static void release() { m_inst->m_grabbed = false; }
protected:
PaintBuffer(): m_overflow(false), m_grabbed(false),
m_timer(0), m_resetWidth(0), m_resetHeight(0) {};
void timerEvent(TQTimerEvent* e) {
assert( m_timer == e->timerId() );
if (m_grabbed)
return;
m_buf.resize(m_resetWidth, m_resetHeight);
m_resetWidth = m_resetHeight = 0;
killTimer( m_timer );
m_timer = 0;
}
TQPixmap *getBuf( TQSize s ) {
assert( !m_grabbed );
if (s.isEmpty())
return 0;
m_grabbed = true;
bool cur_overflow = false;
int nw = kMax(m_buf.width(), s.width());
int nh = kMax(m_buf.height(), s.height());
if (!m_overflow && (nw*nh > maxPixelBuffering))
cur_overflow = true;
if (nw != m_buf.width() || nh != m_buf.height())
m_buf.resize(nw, nh);
if (cur_overflow) {
m_overflow = true;
m_timer = startTimer( leaseTime );
} else if (m_overflow) {
if( s.width()*s.height() > maxPixelBuffering ) {
killTimer( m_timer );
m_timer = startTimer( leaseTime );
} else {
if (s.width() > m_resetWidth)
m_resetWidth = s.width();
if (s.height() > m_resetHeight)
m_resetHeight = s.height();
}
}
return &m_buf;
}
private:
static PaintBuffer* m_inst;
TQPixmap m_buf;
bool m_overflow;
bool m_grabbed;
int m_timer;
int m_resetWidth;
int m_resetHeight;
};
PaintBuffer *PaintBuffer::m_inst = 0;
static void copyWidget(const TQRect& r, TQPainter *p, TQWidget *widget, int tx, int ty)
{
if (r.isNull() || r.isEmpty() )
return;
TQRegion blit(r);
TQValueVector cw;
TQValueVector cr;
if (!widget->childrenListObject().isEmpty()) {
// build region
TQObjectListIterator it = widget->childrenListObject();
for (; it.current(); ++it) {
TQWidget* const w = ::tqqt_cast(it.current());
if ( w && !w->isTopLevel() && !w->isHidden()) {
TQRect r2 = w->geometry();
blit -= r2;
r2 = r2.intersect( r );
r2.moveBy(-w->x(), -w->y());
cr.append(r2);
cw.append(w);
}
}
}
TQMemArray br = blit.tqrects();
const int cnt = br.size();
const bool external = p->tqdevice()->isExtDev();
TQPixmap* const pm = PaintBuffer::grab( widget->size() );
if (!pm)
{
kdWarning(6040) << "Rendering widget [ " << widget->className() << " ] failed due to invalid size." << endl;
return;
}
// fill background
if ( external ) {
// even hackier!
TQPainter pt( pm );
const TQColor c = widget->tqcolorGroup().base();
for (int i = 0; i < cnt; ++i)
pt.fillRect( br[i], c );
} else {
TQRect dr;
for (int i = 0; i < cnt; ++i ) {
dr = br[i];
dr.moveBy( tx, ty );
dr = p->xForm( dr );
bitBlt(pm, br[i].topLeft(), p->device(), dr);
}
}
// send paint event
TQPainter::redirect(widget, pm);
TQPaintEvent e( r, false );
TQApplication::sendEvent( widget, &e );
TQPainter::redirect(widget, 0);
// transfer result
if ( external )
for ( int i = 0; i < cnt; ++i )
p->drawPixmap(TQPoint(tx+br[i].x(), ty+br[i].y()), *pm, br[i]);
else
for ( int i = 0; i < cnt; ++i )
bitBlt(p->device(), p->xForm( TQPoint(tx, ty) + br[i].topLeft() ), pm, br[i]);
// cleanup and recurse
PaintBuffer::release();
TQValueVector::iterator cwit = cw.begin();
TQValueVector::iterator cwitEnd = cw.end();
TQValueVector::const_iterator crit = cr.begin();
for (; cwit != cwitEnd; ++cwit, ++crit)
copyWidget(*crit, p, *cwit, tx+(*cwit)->x(), ty+(*cwit)->y());
}
void RenderWidget::paintWidget(PaintInfo& pI, TQWidget *widget, int tx, int ty)
{
TQPainter* const p = pI.p;
allowWidgetPaintEvents = true;
const bool dsbld = TQSharedDoubleBuffer::isDisabled();
TQSharedDoubleBuffer::setDisabled(true);
TQRect rr = pI.r;
rr.moveBy(-tx, -ty);
const TQRect r = widget->rect().intersect( rr );
copyWidget(r, p, widget, tx, ty);
TQSharedDoubleBuffer::setDisabled(dsbld);
allowWidgetPaintEvents = false;
}
bool RenderWidget::eventFilter(TQObject* /*o*/, TQEvent* e)
{
// no special event processing if this is a frame (in which case KHTMLView handles it all)
if ( ::tqqt_cast( m_widget ) )
return false;
if ( !element() ) return true;
static bool directToWidget = false;
if (directToWidget) {
//We're trying to get the event to the widget
//promptly. So get out of here..
return false;
}
ref();
element()->ref();
bool filtered = false;
//kdDebug() << "RenderWidget::eventFilter type=" << e->type() << endl;
switch(e->type()) {
case TQEvent::FocusOut:
// First, forward it to the widget, so that Qt gets a precise
// state of the focus before pesky JS can try changing it..
directToWidget = true;
TQApplication::sendEvent(m_widget, e);
directToWidget = false;
filtered = true; //We already delivered it!
// Don't count popup as a valid reason for losing the focus
// (example: opening the options of a select combobox shouldn't emit onblur)
if ( TQT_TQFOCUSEVENT(e)->reason() != TQFocusEvent::Popup )
handleFocusOut();
break;
case TQEvent::FocusIn:
//As above, forward to the widget first...
directToWidget = true;
TQApplication::sendEvent(m_widget, e);
directToWidget = false;
filtered = true; //We already delivered it!
//kdDebug(6000) << "RenderWidget::eventFilter captures FocusIn" << endl;
element()->getDocument()->setFocusNode(element());
// if ( isEditable() ) {
// KHTMLPartBrowserExtension *ext = static_cast( element()->view->part()->browserExtension() );
// if ( ext ) ext->editableWidgetFocused( m_widget );
// }
break;
case TQEvent::KeyPress:
case TQEvent::KeyRelease:
// TODO this seems wrong - Qt events are not correctly translated to DOM ones,
// like in KHTMLView::dispatchKeyEvent()
if (element()->dispatchKeyEvent(TQT_TQKEYEVENT(e),false))
filtered = true;
break;
case TQEvent::Wheel:
if (widget()->tqparentWidget() == view()->viewport()) {
// don't allow the widget to react to wheel event unless its
// currently focused. this avoids accidentally changing a select box
// or something while wheeling a webpage.
if (tqApp->tqfocusWidget() != widget() &&
widget()->focusPolicy() <= TQ_StrongFocus) {
TQT_TQWHEELEVENT(e)->ignore();
TQApplication::sendEvent(view(), e);
filtered = true;
}
}
break;
default:
break;
};
element()->deref();
// stop processing if the widget gets deleted, but continue in all other cases
if (hasOneRef())
filtered = true;
deref();
return filtered;
}
void RenderWidget::EventPropagator::sendEvent(TQEvent *e) {
switch(e->type()) {
case TQEvent::MouseButtonPress:
mousePressEvent(TQT_TQMOUSEEVENT(e));
break;
case TQEvent::MouseButtonRelease:
mouseReleaseEvent(TQT_TQMOUSEEVENT(e));
break;
case TQEvent::MouseButtonDblClick:
mouseDoubleClickEvent(TQT_TQMOUSEEVENT(e));
break;
case TQEvent::MouseMove:
mouseMoveEvent(TQT_TQMOUSEEVENT(e));
break;
case TQEvent::KeyPress:
keyPressEvent(TQT_TQKEYEVENT(e));
break;
case TQEvent::KeyRelease:
keyReleaseEvent(TQT_TQKEYEVENT(e));
break;
default:
break;
}
}
void RenderWidget::ScrollViewEventPropagator::sendEvent(TQEvent *e) {
switch(e->type()) {
case TQEvent::MouseButtonPress:
viewportMousePressEvent(TQT_TQMOUSEEVENT(e));
break;
case TQEvent::MouseButtonRelease:
viewportMouseReleaseEvent(TQT_TQMOUSEEVENT(e));
break;
case TQEvent::MouseButtonDblClick:
viewportMouseDoubleClickEvent(TQT_TQMOUSEEVENT(e));
break;
case TQEvent::MouseMove:
viewportMouseMoveEvent(TQT_TQMOUSEEVENT(e));
break;
case TQEvent::KeyPress:
keyPressEvent(TQT_TQKEYEVENT(e));
break;
case TQEvent::KeyRelease:
keyReleaseEvent(TQT_TQKEYEVENT(e));
break;
default:
break;
}
}
bool RenderWidget::handleEvent(const DOM::EventImpl& ev)
{
bool ret = false;
switch(ev.id()) {
case EventImpl::MOUSEDOWN_EVENT:
case EventImpl::MOUSEUP_EVENT:
case EventImpl::MOUSEMOVE_EVENT: {
if (!ev.isMouseEvent()) break;
const MouseEventImpl &me = static_cast(ev);
TQMouseEvent* const qme = me.qEvent();
int absx = 0;
int absy = 0;
absolutePosition(absx, absy);
TQPoint p(me.clientX() - absx + m_view->contentsX(),
me.clientY() - absy + m_view->contentsY());
TQMouseEvent::Type type;
int button = 0;
int state = 0;
if (qme) {
button = qme->button();
state = qme->state();
type = qme->type();
} else {
switch(me.id()) {
case EventImpl::MOUSEDOWN_EVENT:
type = TQMouseEvent::MouseButtonPress;
break;
case EventImpl::MOUSEUP_EVENT:
type = TQMouseEvent::MouseButtonRelease;
break;
case EventImpl::MOUSEMOVE_EVENT:
default:
type = TQMouseEvent::MouseMove;
break;
}
switch (me.button()) {
case 0:
button = Qt::LeftButton;
break;
case 1:
button = Qt::MidButton;
break;
case 2:
button = Qt::RightButton;
break;
default:
break;
}
if (me.ctrlKey())
state |= ControlButton;
if (me.altKey())
state |= AltButton;
if (me.shiftKey())
state |= ShiftButton;
if (me.metaKey())
state |= MetaButton;
}
// kdDebug(6000) << "sending event to widget "
// << " pos=" << p << " type=" << type
// << " button=" << button << " state=" << state << endl;
TQMouseEvent e(type, p, button, state);
TQScrollView * sc = ::tqqt_cast(m_widget);
if (sc && !::tqqt_cast(m_widget))
static_cast(sc)->sendEvent(TQT_TQEVENT(&e));
else
static_cast(m_widget)->sendEvent(TQT_TQEVENT(&e));
ret = e.isAccepted();
break;
}
case EventImpl::KEYDOWN_EVENT:
// do nothing; see the mapping table below
break;
case EventImpl::KEYUP_EVENT: {
if (!ev.isKeyRelatedEvent()) break;
const KeyEventBaseImpl& domKeyEv = static_cast(ev);
if (domKeyEv.isSynthetic() && !acceptsSyntheticEvents()) break;
TQKeyEvent* const ke = domKeyEv.qKeyEvent();
static_cast(m_widget)->sendEvent(TQT_TQEVENT(ke));
ret = ke->isAccepted();
break;
}
case EventImpl::KEYPRESS_EVENT: {
if (!ev.isKeyRelatedEvent()) break;
const KeyEventBaseImpl& domKeyEv = static_cast(ev);
if (domKeyEv.isSynthetic() && !acceptsSyntheticEvents()) break;
// See KHTMLView::dispatchKeyEvent: autorepeat is just keypress in the DOM
// but it's keyrelease+keypress in Qt. So here we do the inverse mapping as
// the one done in KHTMLView: generate two events for one DOM auto-repeat keypress.
// Similarly, DOM keypress events with non-autorepeat Qt event do nothing here,
// because the matching Qt keypress event was already sent from DOM keydown event.
// Reverse drawing as the one in KHTMLView:
// DOM: Down Press | Press | Up
// Qt: (nothing) Press | Release(autorepeat) + Press(autorepeat) | Release
//
// Qt::KeyPress is sent for DOM keypress and not DOM keydown to allow
// sites to block a key with onkeypress, #99749
TQKeyEvent* const ke = domKeyEv.qKeyEvent();
if (ke->isAutoRepeat()) {
TQKeyEvent releaseEv( TQEvent::KeyRelease, ke->key(), ke->ascii(), ke->state(),
ke->text(), ke->isAutoRepeat(), ke->count() );
static_cast(m_widget)->sendEvent(TQT_TQEVENT(&releaseEv));
}
static_cast(m_widget)->sendEvent(TQT_TQEVENT(ke));
ret = ke->isAccepted();
break;
}
case EventImpl::MOUSEOUT_EVENT: {
TQEvent moe( TQEvent::Leave );
TQApplication::sendEvent(m_widget, &moe);
break;
}
case EventImpl::MOUSEOVER_EVENT: {
TQEvent moe( TQEvent::Enter );
TQApplication::sendEvent(m_widget, &moe);
view()->part()->resetHoverText();
break;
}
default:
break;
}
return ret;
}
void RenderWidget::deref()
{
if (_ref) _ref--;
// qDebug( "deref(%p): width get count is %d", this, _ref);
if (!_ref) {
khtml::SharedPtr guard(m_arena); //Since delete on us gets called -first-,
//before the arena free
arenaDelete(m_arena.get());
}
}
FindSelectionResult RenderReplaced::checkSelectionPoint(int _x, int _y, int _tx, int _ty, DOM::NodeImpl*& node, int &offset, SelPointState &)
{
#if 0
kdDebug(6040) << "RenderReplaced::checkSelectionPoint(_x="<<_x<<",_y="<<_y<<",_tx="<<_tx<<",_ty="<<_ty<<")" << endl
<< "xPos: " << xPos() << " yPos: " << yPos() << " width: " << width() << " height: " << height() << endl
<< "_ty + yPos: " << (_ty + yPos()) << " + height: " << (_ty + yPos() + height()) << "; _tx + xPos: " << (_tx + xPos()) << " + width: " << (_tx + xPos() + width()) << endl;
#endif
node = element();
offset = 0;
if ( _y < _ty + yPos() )
return SelectionPointBefore; // above -> before
if ( _y > _ty + yPos() + height() ) {
// below -> after
// Set the offset to the max
offset = 1;
return SelectionPointAfter;
}
if ( _x > _tx + xPos() + width() ) {
// to the right
// ### how to regard bidi in replaced elements? (LS)
offset = 1;
return SelectionPointAfterInLine;
}
// The Y matches, check if we're on the left
if ( _x < _tx + xPos() ) {
// ### how to regard bidi in replaced elements? (LS)
return SelectionPointBeforeInLine;
}
offset = _x > _tx + xPos() + width()/2;
return SelectionPointInside;
}
#ifdef ENABLE_DUMP
void RenderWidget::dump(TQTextStream &stream, const TQString &ind) const
{
RenderReplaced::dump(stream,ind);
if ( widget() )
stream << " color=" << widget()->foregroundColor().name()
<< " bg=" << widget()->backgroundColor().name();
else
stream << " null widget";
}
#endif
#include "render_replaced.moc"