lyx_mirror/src/frontends/qt4/GuiWorkArea.cpp

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/**
* \file GuiWorkArea.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author John Levon
* \author Abdelrazak Younes
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "GuiWorkArea.h"
#include "GuiWorkArea_Private.h"
#include "ColorCache.h"
#include "FontLoader.h"
#include "Menus.h"
#include "Buffer.h"
#include "BufferList.h"
#include "BufferParams.h"
#include "BufferView.h"
#include "CoordCache.h"
#include "Cursor.h"
#include "Font.h"
#include "FuncRequest.h"
#include "GuiApplication.h"
#include "GuiCompleter.h"
#include "GuiKeySymbol.h"
#include "GuiPainter.h"
#include "GuiView.h"
#include "KeySymbol.h"
#include "Language.h"
#include "LyX.h"
#include "LyXRC.h"
#include "LyXVC.h"
#include "qt_helpers.h"
#include "Text.h"
#include "TextMetrics.h"
#include "version.h"
#include "graphics/GraphicsImage.h"
#include "graphics/GraphicsLoader.h"
#include "support/convert.h"
#include "support/debug.h"
#include "support/gettext.h"
#include "support/FileName.h"
#include "support/lassert.h"
#include "support/TempFile.h"
#include "frontends/Application.h"
#include "frontends/FontMetrics.h"
#include "frontends/WorkAreaManager.h"
#include <QContextMenuEvent>
#if (QT_VERSION < 0x050000)
#include <QInputContext>
#endif
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#include <QDrag>
#include <QHelpEvent>
#ifdef Q_OS_MAC
#include <QProxyStyle>
#endif
#include <QMainWindow>
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#include <QMimeData>
#include <QMenu>
#include <QPainter>
#include <QPalette>
#include <QPixmapCache>
#include <QScrollBar>
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#include <QStyleOption>
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#include <QStylePainter>
#include <QTimer>
#include <QToolButton>
#include <QToolTip>
#include <QMenuBar>
#include "support/bind.h"
#include <cmath>
int const TabIndicatorWidth = 3;
#undef KeyPress
#undef NoModifier
using namespace std;
using namespace lyx::support;
namespace lyx {
/// return the LyX mouse button state from Qt's
static mouse_button::state q_button_state(Qt::MouseButton button)
{
mouse_button::state b = mouse_button::none;
switch (button) {
case Qt::LeftButton:
b = mouse_button::button1;
break;
case Qt::MidButton:
b = mouse_button::button2;
break;
case Qt::RightButton:
b = mouse_button::button3;
break;
default:
break;
}
return b;
}
/// return the LyX mouse button state from Qt's
mouse_button::state q_motion_state(Qt::MouseButtons state)
{
mouse_button::state b = mouse_button::none;
if (state & Qt::LeftButton)
b |= mouse_button::button1;
if (state & Qt::MidButton)
b |= mouse_button::button2;
if (state & Qt::RightButton)
b |= mouse_button::button3;
return b;
}
namespace frontend {
class CursorWidget {
public:
CursorWidget() {
recomputeWidth();
}
void draw(QPainter & painter)
{
if (!show_ || !rect_.isValid())
return;
int y = rect_.top();
int l = x_ - rect_.left();
int r = rect_.right() - x_;
int bot = rect_.bottom();
// draw vertical line
painter.fillRect(x_, y, cursor_width_, rect_.height(), color_);
// draw RTL/LTR indication
painter.setPen(color_);
if (l_shape_) {
if (rtl_)
painter.drawLine(x_, bot, x_ - l, bot);
else
painter.drawLine(x_, bot, x_ + cursor_width_ + r, bot);
}
// draw completion triangle
if (completable_) {
int m = y + rect_.height() / 2;
int d = TabIndicatorWidth - 1;
if (rtl_) {
painter.drawLine(x_ - 1, m - d, x_ - 1 - d, m);
painter.drawLine(x_ - 1, m + d, x_ - 1 - d, m);
} else {
painter.drawLine(x_ + cursor_width_, m - d, x_ + cursor_width_ + d, m);
painter.drawLine(x_ + cursor_width_, m + d, x_ + cursor_width_ + d, m);
}
}
}
void update(int x, int y, int h, bool l_shape,
bool rtl, bool completable)
{
color_ = guiApp->colorCache().get(Color_cursor);
l_shape_ = l_shape;
rtl_ = rtl;
completable_ = completable;
x_ = x;
// extension to left and right
int l = 0;
int r = 0;
// RTL/LTR indication
if (l_shape_) {
if (rtl)
l += h / 3;
else
r += h / 3;
}
// completion triangle
if (completable_) {
if (rtl)
l = max(l, TabIndicatorWidth);
else
r = max(r, TabIndicatorWidth);
}
// compute overall rectangle
rect_ = QRect(x - l, y, cursor_width_ + r + l, h);
}
void show(bool set_show = true) { show_ = set_show; }
void hide() { show_ = false; }
int cursorWidth() const { return cursor_width_; }
void recomputeWidth() {
cursor_width_ = lyxrc.cursor_width
? lyxrc.cursor_width
: 1 + int((lyxrc.zoom + 50) / 200.0);
}
QRect const & rect() { return rect_; }
private:
/// cursor is in RTL or LTR text
bool rtl_;
/// indication for RTL or LTR
bool l_shape_;
/// triangle to show that a completion is available
bool completable_;
///
bool show_;
///
QColor color_;
/// rectangle, possibly with l_shape and completion triangle
QRect rect_;
/// x position (were the vertical line is drawn)
int x_;
int cursor_width_;
};
// This is a 'heartbeat' generating synthetic mouse move events when the
// cursor is at the top or bottom edge of the viewport. One scroll per 0.2 s
SyntheticMouseEvent::SyntheticMouseEvent()
: timeout(200), restart_timeout(true)
{}
GuiWorkArea::Private::Private(GuiWorkArea * parent)
: p(parent), screen_(0), buffer_view_(0), lyx_view_(0), cursor_visible_(false),
need_resize_(false), schedule_redraw_(false), preedit_lines_(1),
pixel_ratio_(1.0),
completer_(new GuiCompleter(p, p))
{
}
GuiWorkArea::GuiWorkArea(QWidget * /* w */)
: d(new Private(this))
{
}
GuiWorkArea::GuiWorkArea(Buffer & buffer, GuiView & gv)
: d(new Private(this))
{
setGuiView(gv);
buffer.params().display_pixel_ratio = theGuiApp()->pixelRatio();
setBuffer(buffer);
init();
}
double GuiWorkArea::pixelRatio() const
{
#if QT_VERSION >= 0x050000
return devicePixelRatio();
#else
return 1.0;
#endif
}
void GuiWorkArea::init()
{
// Setup the signals
connect(&d->cursor_timeout_, SIGNAL(timeout()),
this, SLOT(toggleCursor()));
int const time = QApplication::cursorFlashTime() / 2;
if (time > 0) {
d->cursor_timeout_.setInterval(time);
d->cursor_timeout_.start();
} else {
// let's initialize this just to be safe
d->cursor_timeout_.setInterval(500);
}
d->resetScreen();
// With Qt4.5 a mouse event will happen before the first paint event
// so make sure that the buffer view has an up to date metrics.
d->buffer_view_->resize(viewport()->width(), viewport()->height());
d->cursor_ = new frontend::CursorWidget();
d->cursor_->hide();
setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOff);
setAcceptDrops(true);
setMouseTracking(true);
setMinimumSize(100, 70);
setFrameStyle(QFrame::NoFrame);
updateWindowTitle();
viewport()->setAutoFillBackground(false);
// We don't need double-buffering nor SystemBackground on
// the viewport because we have our own backing pixmap.
viewport()->setAttribute(Qt::WA_NoSystemBackground);
setFocusPolicy(Qt::StrongFocus);
d->setCursorShape(Qt::IBeamCursor);
d->synthetic_mouse_event_.timeout.timeout.connect(
bind(&GuiWorkArea::generateSyntheticMouseEvent,
this));
// Initialize the vertical Scroll Bar
QObject::connect(verticalScrollBar(), SIGNAL(valueChanged(int)),
this, SLOT(scrollTo(int)));
LYXERR(Debug::GUI, "viewport width: " << viewport()->width()
<< " viewport height: " << viewport()->height());
// Enables input methods for asian languages.
// Must be set when creating custom text editing widgets.
setAttribute(Qt::WA_InputMethodEnabled, true);
d->dialog_mode_ = false;
}
GuiWorkArea::~GuiWorkArea()
{
d->buffer_view_->buffer().workAreaManager().remove(this);
delete d->screen_;
delete d->buffer_view_;
delete d->cursor_;
// Completer has a QObject parent and is thus automatically destroyed.
// See #4758.
// delete completer_;
delete d;
}
Qt::CursorShape GuiWorkArea::cursorShape() const
{
return viewport()->cursor().shape();
}
void GuiWorkArea::Private::setCursorShape(Qt::CursorShape shape)
{
p->viewport()->setCursor(shape);
}
void GuiWorkArea::Private::updateCursorShape()
{
setCursorShape(buffer_view_->clickableInset()
? Qt::PointingHandCursor : Qt::IBeamCursor);
}
void GuiWorkArea::setGuiView(GuiView & gv)
{
d->lyx_view_ = &gv;
}
void GuiWorkArea::setBuffer(Buffer & buffer)
{
delete d->buffer_view_;
d->buffer_view_ = new BufferView(buffer);
buffer.workAreaManager().add(this);
// HACK: Prevents an additional redraw when the scrollbar pops up
// which regularily happens on documents with more than one page.
// The policy should be set to "Qt::ScrollBarAsNeeded" soon.
// Since we have no geometry information yet, we assume that
// a document needs a scrollbar if there is more then four
// paragraph in the outermost text.
if (buffer.text().paragraphs().size() > 4)
setVerticalScrollBarPolicy(Qt::ScrollBarAlwaysOn);
QTimer::singleShot(50, this, SLOT(fixVerticalScrollBar()));
}
void GuiWorkArea::fixVerticalScrollBar()
{
if (!isFullScreen())
setVerticalScrollBarPolicy(Qt::ScrollBarAsNeeded);
}
void GuiWorkArea::close()
{
d->lyx_view_->removeWorkArea(this);
}
void GuiWorkArea::setFullScreen(bool full_screen)
{
d->buffer_view_->setFullScreen(full_screen);
setFrameStyle(QFrame::NoFrame);
if (full_screen) {
setFrameStyle(QFrame::NoFrame);
if (lyxrc.full_screen_scrollbar)
setVerticalScrollBarPolicy(Qt::ScrollBarAlwaysOff);
} else
setVerticalScrollBarPolicy(Qt::ScrollBarAsNeeded);
}
BufferView & GuiWorkArea::bufferView()
{
return *d->buffer_view_;
}
BufferView const & GuiWorkArea::bufferView() const
{
return *d->buffer_view_;
}
void GuiWorkArea::stopBlinkingCursor()
{
d->cursor_timeout_.stop();
d->hideCursor();
}
void GuiWorkArea::startBlinkingCursor()
{
// do not show the cursor if the view is busy
if (view().busy())
return;
Point p;
int h = 0;
d->buffer_view_->cursorPosAndHeight(p, h);
// Don't start blinking if the cursor isn't on screen.
if (!d->buffer_view_->cursorInView(p, h))
return;
d->showCursor();
//we're not supposed to cache this value.
int const time = QApplication::cursorFlashTime() / 2;
if (time <= 0)
return;
d->cursor_timeout_.setInterval(time);
d->cursor_timeout_.start();
}
void GuiWorkArea::redraw(bool update_metrics)
{
if (!isVisible())
// No need to redraw in this case.
return;
// No need to do anything if this is the current view. The BufferView
// metrics are already up to date.
if (update_metrics || d->lyx_view_ != guiApp->currentView()
|| d->lyx_view_->currentWorkArea() != this) {
// FIXME: it would be nice to optimize for the off-screen case.
d->buffer_view_->cursor().fixIfBroken();
d->buffer_view_->updateMetrics();
d->buffer_view_->cursor().fixIfBroken();
}
// update cursor position, because otherwise it has to wait until
// the blinking interval is over
if (d->cursor_visible_) {
d->hideCursor();
d->showCursor();
}
LYXERR(Debug::WORKAREA, "WorkArea::redraw screen");
d->updateScreen();
update(0, 0, viewport()->width(), viewport()->height());
/// \warning: scrollbar updating *must* be done after the BufferView is drawn
/// because \c BufferView::updateScrollbar() is called in \c BufferView::draw().
d->updateScrollbar();
d->lyx_view_->updateStatusBar();
if (lyxerr.debugging(Debug::WORKAREA))
d->buffer_view_->coordCache().dump();
updateWindowTitle();
d->updateCursorShape();
}
void GuiWorkArea::processKeySym(KeySymbol const & key, KeyModifier mod)
{
if (d->lyx_view_->isFullScreen() && d->lyx_view_->menuBar()->isVisible()
&& lyxrc.full_screen_menubar) {
// FIXME HACK: we should not have to do this here. See related comment
// in GuiView::event() (QEvent::ShortcutOverride)
d->lyx_view_->menuBar()->hide();
}
// In order to avoid bad surprise in the middle of an operation,
// we better stop the blinking cursor...
// the cursor gets restarted in GuiView::restartCursor()
stopBlinkingCursor();
guiApp->processKeySym(key, mod);
}
void GuiWorkArea::Private::dispatch(FuncRequest const & cmd0, KeyModifier mod)
{
// Handle drag&drop
if (cmd0.action() == LFUN_FILE_OPEN) {
DispatchResult dr;
lyx_view_->dispatch(cmd0, dr);
return;
}
FuncRequest cmd;
if (cmd0.action() == LFUN_MOUSE_PRESS) {
if (mod == ShiftModifier)
cmd = FuncRequest(cmd0, "region-select");
else if (mod == ControlModifier)
cmd = FuncRequest(cmd0, "paragraph-select");
else
cmd = cmd0;
}
else
cmd = cmd0;
bool const notJustMovingTheMouse =
cmd.action() != LFUN_MOUSE_MOTION || cmd.button() != mouse_button::none;
// In order to avoid bad surprise in the middle of an operation, we better stop
// the blinking cursor.
if (notJustMovingTheMouse)
p->stopBlinkingCursor();
buffer_view_->mouseEventDispatch(cmd);
// Skip these when selecting
// FIXME: let GuiView take care of those.
if (cmd.action() != LFUN_MOUSE_MOTION) {
completer_->updateVisibility(false, false);
lyx_view_->updateDialogs();
lyx_view_->updateStatusBar();
}
// GUI tweaks except with mouse motion with no button pressed.
if (notJustMovingTheMouse) {
// Slight hack: this is only called currently when we
// clicked somewhere, so we force through the display
// of the new status here.
// FIXME: let GuiView take care of those.
lyx_view_->clearMessage();
// Show the cursor immediately after any operation
p->startBlinkingCursor();
}
updateCursorShape();
}
void GuiWorkArea::Private::resizeBufferView()
{
// WARNING: Please don't put any code that will trigger a repaint here!
// We are already inside a paint event.
p->stopBlinkingCursor();
// Warn our container (GuiView).
p->busy(true);
Point point;
int h = 0;
buffer_view_->cursorPosAndHeight(point, h);
bool const cursor_in_view = buffer_view_->cursorInView(point, h);
buffer_view_->resize(p->viewport()->width(), p->viewport()->height());
if (cursor_in_view)
buffer_view_->scrollToCursor();
updateScreen();
// Update scrollbars which might have changed due different
// BufferView dimension. This is especially important when the
// BufferView goes from zero-size to the real-size for the first time,
// as the scrollbar paramters are then set for the first time.
updateScrollbar();
need_resize_ = false;
p->busy(false);
// Eventually, restart the cursor after the resize event.
// We might be resizing even if the focus is on another widget so we only
// restart the cursor if we have the focus.
if (p->hasFocus())
QTimer::singleShot(50, p, SLOT(startBlinkingCursor()));
}
void GuiWorkArea::Private::showCursor()
{
if (cursor_visible_)
return;
Point p;
int h = 0;
buffer_view_->cursorPosAndHeight(p, h);
if (!buffer_view_->cursorInView(p, h))
return;
// RTL or not RTL
bool l_shape = false;
Font const & realfont = buffer_view_->cursor().real_current_font;
BufferParams const & bp = buffer_view_->buffer().params();
bool const samelang = realfont.language() == bp.language;
bool const isrtl = realfont.isVisibleRightToLeft();
if (!samelang || isrtl != bp.language->rightToLeft())
l_shape = true;
// The ERT language hack needs fixing up
if (realfont.language() == latex_language)
l_shape = false;
// show cursor on screen
Cursor & cur = buffer_view_->cursor();
bool completable = cur.inset().showCompletionCursor()
&& completer_->completionAvailable()
&& !completer_->popupVisible()
&& !completer_->inlineVisible();
cursor_visible_ = true;
cursor_->recomputeWidth();
Keyboard based horizontal scrolling for wide insets [This commit is the output of the "horizontal scrolling" GSoC 2013 project, by Hashini Senaratne. The code has been cleaned up, some variables have been renamed and moved from the Cursor class to BufferView::Private. This is the base from which I (jmarc) will polish the feature for landing on master. Below is the original commit log of Hashini, updated to reflect the changes that have been done.] This feature also applicable for other insets; graphics and labels. This implementation is capable of scrolling a single row when reaching its content which is beyond the screen limits, using left and right arrow keys. The attribute 'horiz_scroll_offset_' introduced in the BufferView::Private class plays a main role in horizontal scrolling of the wide rows that grow beyond the screen limits. This attribute represents by how much pixels the current row that the text cursor lies in should be get scrolled. The main logic that is responsible for drawing the scrolled rows is within the BufferView class, BufferView::checkCursorScrollOffset. * The main logic is called via BufferView::draw. * What this does is set the horiz_scroll_offset_ attribute in in order to show the position that the text cursor lies in. * To make sure that BufferView::draw gets involved when Update flag is FitCursor, necessary changes are made in BufferView::processUpdateFlags. Basically what the logic that used to set the horiz_scroll_offset_ does is, * The row which the text cursor lies in is identified by a CursorSlice that points to the beginning of the row. This is the 'rowSlice' variable used in BufferView::checkCursorScrollOffset. Acessors are added to obtain this variable. Here row objects were not used to identify the current row, because it appears that row objects can disappear when doing a decoration update for example. This means that comparing row pointers is not a good idea, because they can change without notice. * Stop calculations of horiz_scroll_offset_ variable, if metrics have not been computed yet. Otherwise the calls to TextMetrics::parMetrics, calls redoParagraph and may change the row heigths. Therefore vertical scrolling feature may get disturbed. This is avoided. * Using BufferView::::setCurrentRowSlice resets horiz_scroll_offset_ when changing cursor row. This is done in order to prevent unwanted scrolling that happens when changing the selected row using up and down arrow keys. * Recompute inset positions before checking scoll offset of the row, by painting the row insets with drawing disabled. This is done because the position of insets is computed within the drawing procedure. * Current x position of the text cursor is compared with the horiz_scroll_offset_ value and the other variables like row.width(), bv.workWidth(). Compute the new horiz_scroll_offset_ value in order to show where the text cursor lies in. The basics conditions that we check before recomputing it are, if the text cursor lies rightward to the current right screen boundary, if the text cursor lies leftward to the current left screen boundary, if the text cursor lies within screen boundaries but the length of the row is less than the left boundary of the screen (this happens when we delete some content of the row using delete key or backspace key). * Change update strategy when scrooll offset has changed. This allows to redraw the row when no drawing was scheduled. By doing so, it was possible to redraw a wide row when moving to the leftmost position of the wide row, from the leftmost position of the row below, using the left arrow key. In TextMetrics::drawParagraph it is checked whether the current row is what is drawing now. If it is so, the value used to the x value of the row for drawing is adapted according to BufferView::horizScrollOffset. The method used to pass boundary() was fixed to get row when cursor was in a nested inset. This matter is considered in Cursor::textRow and it is modified accordingly. GuiWorkArea::Private::showCursor() is modified to show the cursor position in a scrolled row.
2014-07-26 11:17:28 +00:00
//int cur_x = buffer_view_->getPos(cur).x_;
// We may have decided to slide the cursor row so that cursor
// is visible.
p.x_ -= buffer_view_->horizScrollOffset();
showCursor(p.x_, p.y_, h, l_shape, isrtl, completable);
}
void GuiWorkArea::Private::hideCursor()
{
if (!cursor_visible_)
return;
cursor_visible_ = false;
removeCursor();
}
void GuiWorkArea::toggleCursor()
{
if (d->cursor_visible_)
d->hideCursor();
else
d->showCursor();
}
void GuiWorkArea::Private::updateScrollbar()
{
ScrollbarParameters const & scroll_ = buffer_view_->scrollbarParameters();
// WARNING: don't touch at the scrollbar value like this:
// verticalScrollBar()->setValue(scroll_.position);
// because this would cause a recursive signal/slot calling with
// GuiWorkArea::scrollTo
p->verticalScrollBar()->setRange(scroll_.min, scroll_.max);
p->verticalScrollBar()->setPageStep(scroll_.page_step);
p->verticalScrollBar()->setSingleStep(scroll_.single_step);
p->verticalScrollBar()->setSliderPosition(scroll_.position);
}
void GuiWorkArea::scrollTo(int value)
{
stopBlinkingCursor();
d->buffer_view_->scrollDocView(value, true);
if (lyxrc.cursor_follows_scrollbar) {
d->buffer_view_->setCursorFromScrollbar();
// FIXME: let GuiView take care of those.
d->lyx_view_->updateLayoutList();
}
// Show the cursor immediately after any operation.
startBlinkingCursor();
// FIXME QT5
#ifdef Q_WS_X11
QApplication::syncX();
#endif
}
bool GuiWorkArea::event(QEvent * e)
{
switch (e->type()) {
case QEvent::ToolTip: {
QHelpEvent * helpEvent = static_cast<QHelpEvent *>(e);
if (lyxrc.use_tooltip) {
QPoint pos = helpEvent->pos();
if (pos.x() < viewport()->width()) {
QString s = toqstr(d->buffer_view_->toolTip(pos.x(), pos.y()));
QToolTip::showText(helpEvent->globalPos(), s);
}
else
QToolTip::hideText();
}
// Don't forget to accept the event!
e->accept();
return true;
}
case QEvent::ShortcutOverride: {
// We catch this event in order to catch the Tab or Shift+Tab key press
// which are otherwise reserved to focus switching between controls
// within a dialog.
QKeyEvent * ke = static_cast<QKeyEvent*>(e);
if ((ke->key() == Qt::Key_Tab && ke->modifiers() == Qt::NoModifier)
|| (ke->key() == Qt::Key_Backtab && (
ke->modifiers() == Qt::ShiftModifier
|| ke->modifiers() == Qt::NoModifier))) {
keyPressEvent(ke);
return true;
}
return QAbstractScrollArea::event(e);
}
default:
return QAbstractScrollArea::event(e);
}
return false;
}
void GuiWorkArea::contextMenuEvent(QContextMenuEvent * e)
{
string name;
if (e->reason() == QContextMenuEvent::Mouse)
// the menu name is set on mouse press
name = d->context_menu_name_;
else {
QPoint pos = e->pos();
Cursor const & cur = d->buffer_view_->cursor();
if (e->reason() == QContextMenuEvent::Keyboard && cur.inTexted()) {
// Do not access the context menu of math right in front of before
// the cursor. This does not work when the cursor is in text.
Inset * inset = cur.paragraph().getInset(cur.pos());
if (inset && inset->asInsetMath())
--pos.rx();
else if (cur.pos() > 0) {
Inset * inset = cur.paragraph().getInset(cur.pos() - 1);
if (inset)
++pos.rx();
}
}
name = d->buffer_view_->contextMenu(pos.x(), pos.y());
}
if (name.empty()) {
QAbstractScrollArea::contextMenuEvent(e);
return;
}
// always show mnemonics when the keyboard is used to show the context menu
// FIXME: This should be fixed in Qt itself
bool const keyboard = (e->reason() == QContextMenuEvent::Keyboard);
QMenu * menu = guiApp->menus().menu(toqstr(name), *d->lyx_view_, keyboard);
if (!menu) {
QAbstractScrollArea::contextMenuEvent(e);
return;
}
// Position the menu to the right.
// FIXME: menu position should be different for RTL text.
menu->exec(e->globalPos());
e->accept();
}
void GuiWorkArea::focusInEvent(QFocusEvent * e)
{
LYXERR(Debug::DEBUG, "GuiWorkArea::focusInEvent(): " << this << endl);
if (d->lyx_view_->currentWorkArea() != this) {
d->lyx_view_->setCurrentWorkArea(this);
d->lyx_view_->currentWorkArea()->bufferView().buffer().updateBuffer();
}
startBlinkingCursor();
QAbstractScrollArea::focusInEvent(e);
}
void GuiWorkArea::focusOutEvent(QFocusEvent * e)
{
LYXERR(Debug::DEBUG, "GuiWorkArea::focusOutEvent(): " << this << endl);
stopBlinkingCursor();
QAbstractScrollArea::focusOutEvent(e);
}
void GuiWorkArea::mousePressEvent(QMouseEvent * e)
{
if (d->dc_event_.active && d->dc_event_ == *e) {
d->dc_event_.active = false;
FuncRequest cmd(LFUN_MOUSE_TRIPLE, e->x(), e->y(),
q_button_state(e->button()));
d->dispatch(cmd);
e->accept();
return;
}
#if (QT_VERSION < 0x050000) && !defined(__HAIKU__)
inputContext()->reset();
#endif
FuncRequest const cmd(LFUN_MOUSE_PRESS, e->x(), e->y(),
q_button_state(e->button()));
d->dispatch(cmd, q_key_state(e->modifiers()));
// Save the context menu on mouse press, because also the mouse
// cursor is set on mouse press. Afterwards, we can either release
// the mousebutton somewhere else, or the cursor might have moved
// due to the DEPM. We need to do this after the mouse has been
// set in dispatch(), because the selection state might change.
if (e->button() == Qt::RightButton)
d->context_menu_name_ = d->buffer_view_->contextMenu(e->x(), e->y());
e->accept();
}
void GuiWorkArea::mouseReleaseEvent(QMouseEvent * e)
{
if (d->synthetic_mouse_event_.timeout.running())
d->synthetic_mouse_event_.timeout.stop();
FuncRequest const cmd(LFUN_MOUSE_RELEASE, e->x(), e->y(),
q_button_state(e->button()));
d->dispatch(cmd);
e->accept();
}
void GuiWorkArea::mouseMoveEvent(QMouseEvent * e)
{
// we kill the triple click if we move
doubleClickTimeout();
FuncRequest cmd(LFUN_MOUSE_MOTION, e->x(), e->y(),
q_motion_state(e->buttons()));
e->accept();
// If we're above or below the work area...
if ((e->y() <= 20 || e->y() >= viewport()->height() - 20)
&& e->buttons() == mouse_button::button1) {
// Make sure only a synthetic event can cause a page scroll,
// so they come at a steady rate:
if (e->y() <= 20)
// _Force_ a scroll up:
cmd.set_y(e->y() - 21);
else
cmd.set_y(e->y() + 21);
// Store the event, to be handled when the timeout expires.
d->synthetic_mouse_event_.cmd = cmd;
if (d->synthetic_mouse_event_.timeout.running()) {
// Discard the event. Note that it _may_ be handled
// when the timeout expires if
// synthetic_mouse_event_.cmd has not been overwritten.
// Ie, when the timeout expires, we handle the
// most recent event but discard all others that
// occurred after the one used to start the timeout
// in the first place.
return;
}
d->synthetic_mouse_event_.restart_timeout = true;
d->synthetic_mouse_event_.timeout.start();
// Fall through to handle this event...
} else if (d->synthetic_mouse_event_.timeout.running()) {
// Store the event, to be possibly handled when the timeout
// expires.
// Once the timeout has expired, normal control is returned
// to mouseMoveEvent (restart_timeout = false).
// This results in a much smoother 'feel' when moving the
// mouse back into the work area.
d->synthetic_mouse_event_.cmd = cmd;
d->synthetic_mouse_event_.restart_timeout = false;
return;
}
d->dispatch(cmd);
}
void GuiWorkArea::wheelEvent(QWheelEvent * ev)
{
// Wheel rotation by one notch results in a delta() of 120 (see
// documentation of QWheelEvent)
double const delta = ev->delta() / 120.0;
bool zoom = false;
switch (lyxrc.scroll_wheel_zoom) {
case LyXRC::SCROLL_WHEEL_ZOOM_CTRL:
zoom = ev->modifiers() & Qt::ControlModifier;
zoom &= !(ev->modifiers() & (Qt::ShiftModifier | Qt::AltModifier));
break;
case LyXRC::SCROLL_WHEEL_ZOOM_SHIFT:
zoom = ev->modifiers() & Qt::ShiftModifier;
zoom &= !(ev->modifiers() & (Qt::ControlModifier | Qt::AltModifier));
break;
case LyXRC::SCROLL_WHEEL_ZOOM_ALT:
zoom = ev->modifiers() & Qt::AltModifier;
zoom &= !(ev->modifiers() & (Qt::ShiftModifier | Qt::ControlModifier));
break;
case LyXRC::SCROLL_WHEEL_ZOOM_OFF:
break;
}
if (zoom) {
docstring arg = convert<docstring>(int(5 * delta));
lyx::dispatch(FuncRequest(LFUN_BUFFER_ZOOM_IN, arg));
return;
}
// Take into account the desktop wide settings.
int const lines = qApp->wheelScrollLines();
int const page_step = verticalScrollBar()->pageStep();
// Test if the wheel mouse is set to one screen at a time.
int scroll_value = lines > page_step
? page_step : lines * verticalScrollBar()->singleStep();
// Take into account the rotation and the user preferences.
scroll_value = int(scroll_value * delta * lyxrc.mouse_wheel_speed);
LYXERR(Debug::SCROLLING, "wheelScrollLines = " << lines
<< " delta = " << delta << " scroll_value = " << scroll_value
<< " page_step = " << page_step);
// Now scroll.
verticalScrollBar()->setValue(verticalScrollBar()->value() - scroll_value);
ev->accept();
}
void GuiWorkArea::generateSyntheticMouseEvent()
{
int const e_y = d->synthetic_mouse_event_.cmd.y();
int const wh = d->buffer_view_->workHeight();
bool const up = e_y < 0;
bool const down = e_y > wh;
// Set things off to generate the _next_ 'pseudo' event.
int step = 50;
if (d->synthetic_mouse_event_.restart_timeout) {
// This is some magic formulae to determine the speed
// of scrolling related to the position of the mouse.
int time = 200;
if (up || down) {
int dist = up ? -e_y : e_y - wh;
time = max(min(200, 250000 / (dist * dist)), 1) ;
if (time < 40) {
step = 80000 / (time * time);
time = 40;
}
}
d->synthetic_mouse_event_.timeout.setTimeout(time);
d->synthetic_mouse_event_.timeout.start();
}
// Can we scroll further ?
int const value = verticalScrollBar()->value();
if (value == verticalScrollBar()->maximum()
|| value == verticalScrollBar()->minimum()) {
d->synthetic_mouse_event_.timeout.stop();
return;
}
// Scroll
if (step <= 2 * wh) {
d->buffer_view_->scroll(up ? -step : step);
d->buffer_view_->updateMetrics();
} else {
d->buffer_view_->scrollDocView(value + (up ? -step : step), false);
}
// In which paragraph do we have to set the cursor ?
Cursor & cur = d->buffer_view_->cursor();
// FIXME: we don't know howto handle math.
Text * text = cur.text();
if (!text)
return;
TextMetrics const & tm = d->buffer_view_->textMetrics(text);
pair<pit_type, const ParagraphMetrics *> pp = up ? tm.first() : tm.last();
ParagraphMetrics const & pm = *pp.second;
pit_type const pit = pp.first;
if (pm.rows().empty())
return;
// Find the row at which we set the cursor.
RowList::const_iterator rit = pm.rows().begin();
RowList::const_iterator rlast = pm.rows().end();
int yy = pm.position() - pm.ascent();
for (--rlast; rit != rlast; ++rit) {
int h = rit->height();
if ((up && yy + h > 0)
|| (!up && yy + h > wh - defaultRowHeight()))
break;
yy += h;
}
// Find the position of the cursor
bool bound;
int x = d->synthetic_mouse_event_.cmd.x();
pos_type const pos = tm.getPosNearX(*rit, x, bound);
// Set the cursor
cur.pit() = pit;
cur.pos() = pos;
cur.boundary(bound);
d->buffer_view_->buffer().changed(false);
return;
}
void GuiWorkArea::keyPressEvent(QKeyEvent * ev)
{
// Do not process here some keys if dialog_mode_ is set
if (d->dialog_mode_
&& (ev->modifiers() == Qt::NoModifier
|| ev->modifiers() == Qt::ShiftModifier)
&& (ev->key() == Qt::Key_Escape
|| ev->key() == Qt::Key_Enter
|| ev->key() == Qt::Key_Return)
) {
ev->ignore();
return;
}
// intercept some keys if completion popup is visible
if (d->completer_->popupVisible()) {
switch (ev->key()) {
case Qt::Key_Enter:
case Qt::Key_Return:
d->completer_->activate();
ev->accept();
return;
}
}
// do nothing if there are other events
// (the auto repeated events come too fast)
// it looks like this is only needed on X11
#if defined(Q_WS_X11) || defined(QPA_XCB)
if (qApp->hasPendingEvents() && ev->isAutoRepeat()) {
switch (ev->key()) {
case Qt::Key_PageDown:
case Qt::Key_PageUp:
case Qt::Key_Left:
case Qt::Key_Right:
case Qt::Key_Up:
case Qt::Key_Down:
LYXERR(Debug::KEY, "system is busy: scroll key event ignored");
ev->ignore();
return;
}
}
#endif
KeyModifier m = q_key_state(ev->modifiers());
std::string str;
if (m & ShiftModifier)
str += "Shift-";
if (m & ControlModifier)
str += "Control-";
if (m & AltModifier)
str += "Alt-";
if (m & MetaModifier)
str += "Meta-";
LYXERR(Debug::KEY, " count: " << ev->count() << " text: " << ev->text()
<< " isAutoRepeat: " << ev->isAutoRepeat() << " key: " << ev->key()
<< " keyState: " << str);
KeySymbol sym;
setKeySymbol(&sym, ev);
if (sym.isOK()) {
processKeySym(sym, q_key_state(ev->modifiers()));
ev->accept();
} else {
ev->ignore();
}
}
void GuiWorkArea::doubleClickTimeout()
{
d->dc_event_.active = false;
}
void GuiWorkArea::mouseDoubleClickEvent(QMouseEvent * ev)
{
d->dc_event_ = DoubleClick(ev);
QTimer::singleShot(QApplication::doubleClickInterval(), this,
SLOT(doubleClickTimeout()));
FuncRequest cmd(LFUN_MOUSE_DOUBLE,
ev->x(), ev->y(),
q_button_state(ev->button()));
d->dispatch(cmd);
ev->accept();
}
void GuiWorkArea::resizeEvent(QResizeEvent * ev)
{
QAbstractScrollArea::resizeEvent(ev);
d->need_resize_ = true;
ev->accept();
}
void GuiWorkArea::Private::update(int x, int y, int w, int h)
{
p->viewport()->update(x, y, w, h);
}
void GuiWorkArea::paintEvent(QPaintEvent * ev)
{
QRectF const rc = ev->rect();
// LYXERR(Debug::PAINTING, "paintEvent begin: x: " << rc.x()
// << " y: " << rc.y() << " w: " << rc.width() << " h: " << rc.height());
if (d->needResize()) {
d->resetScreen();
d->resizeBufferView();
if (d->cursor_visible_) {
d->hideCursor();
d->showCursor();
}
}
QPainter pain(viewport());
double const pr = pixelRatio();
QRectF const rcs = QRectF(rc.x() * pr, rc.y() * pr, rc.width() * pr, rc.height() * pr);
if (lyxrc.use_qimage) {
QImage const & image = static_cast<QImage const &>(*d->screen_);
pain.drawImage(rc, image, rcs);
} else {
QPixmap const & pixmap = static_cast<QPixmap const &>(*d->screen_);
pain.drawPixmap(rc, pixmap, rcs);
}
d->cursor_->draw(pain);
ev->accept();
}
void GuiWorkArea::Private::updateScreen()
{
GuiPainter pain(screen_, p->pixelRatio());
buffer_view_->draw(pain);
}
void GuiWorkArea::Private::showCursor(int x, int y, int h,
bool l_shape, bool rtl, bool completable)
{
if (schedule_redraw_) {
// This happens when a graphic conversion is finished. As we don't know
// the size of the new graphics, it's better the update everything.
// We can't use redraw() here because this would trigger a infinite
// recursive loop with showCursor().
buffer_view_->resize(p->viewport()->width(), p->viewport()->height());
updateScreen();
updateScrollbar();
p->viewport()->update(QRect(0, 0, p->viewport()->width(), p->viewport()->height()));
schedule_redraw_ = false;
// Show the cursor immediately after the update.
hideCursor();
p->toggleCursor();
return;
}
cursor_->update(x, y, h, l_shape, rtl, completable);
cursor_->show();
p->viewport()->update(cursor_->rect());
}
void GuiWorkArea::Private::removeCursor()
{
cursor_->hide();
//if (!qApp->focusWidget())
p->viewport()->update(cursor_->rect());
}
void GuiWorkArea::inputMethodEvent(QInputMethodEvent * e)
{
QString const & commit_string = e->commitString();
docstring const & preedit_string
= qstring_to_ucs4(e->preeditString());
if (!commit_string.isEmpty()) {
LYXERR(Debug::KEY, "preeditString: " << e->preeditString()
<< " commitString: " << e->commitString());
int key = 0;
// FIXME Iwami 04/01/07: we should take care also of UTF16 surrogates here.
for (int i = 0; i != commit_string.size(); ++i) {
QKeyEvent ev(QEvent::KeyPress, key, Qt::NoModifier, commit_string[i]);
keyPressEvent(&ev);
}
}
// Hide the cursor during the kana-kanji transformation.
if (preedit_string.empty())
startBlinkingCursor();
else
stopBlinkingCursor();
// last_width : for checking if last preedit string was/wasn't empty.
// FIXME THREAD
// We could have more than one work area, right?
static bool last_width = false;
if (!last_width && preedit_string.empty()) {
// if last_width is last length of preedit string.
e->accept();
return;
}
GuiPainter pain(d->screen_, pixelRatio());
d->buffer_view_->updateMetrics();
d->buffer_view_->draw(pain);
FontInfo font = d->buffer_view_->cursor().getFont().fontInfo();
FontMetrics const & fm = theFontMetrics(font);
int height = fm.maxHeight();
int cur_x = d->cursor_->rect().left();
int cur_y = d->cursor_->rect().bottom();
// redraw area of preedit string.
update(0, cur_y - height, viewport()->width(),
(height + 1) * d->preedit_lines_);
if (preedit_string.empty()) {
last_width = false;
d->preedit_lines_ = 1;
e->accept();
return;
}
last_width = true;
// att : stores an IM attribute.
QList<QInputMethodEvent::Attribute> const & att = e->attributes();
// get attributes of input method cursor.
// cursor_pos : cursor position in preedit string.
size_t cursor_pos = 0;
bool cursor_is_visible = false;
for (int i = 0; i != att.size(); ++i) {
if (att.at(i).type == QInputMethodEvent::Cursor) {
cursor_pos = att.at(i).start;
cursor_is_visible = att.at(i).length != 0;
break;
}
}
size_t preedit_length = preedit_string.length();
// get position of selection in input method.
// FIXME: isn't there a way to do this simplier?
// rStart : cursor position in selected string in IM.
size_t rStart = 0;
// rLength : selected string length in IM.
size_t rLength = 0;
if (cursor_pos < preedit_length) {
for (int i = 0; i != att.size(); ++i) {
if (att.at(i).type == QInputMethodEvent::TextFormat) {
if (att.at(i).start <= int(cursor_pos)
&& int(cursor_pos) < att.at(i).start + att.at(i).length) {
rStart = att.at(i).start;
rLength = att.at(i).length;
if (!cursor_is_visible)
cursor_pos += rLength;
break;
}
}
}
}
else {
rStart = cursor_pos;
rLength = 0;
}
int const right_margin = d->buffer_view_->rightMargin();
Painter::preedit_style ps;
// Most often there would be only one line:
d->preedit_lines_ = 1;
for (size_t pos = 0; pos != preedit_length; ++pos) {
char_type const typed_char = preedit_string[pos];
// reset preedit string style
ps = Painter::preedit_default;
// if we reached the right extremity of the screen, go to next line.
if (cur_x + fm.width(typed_char) > viewport()->width() - right_margin) {
cur_x = right_margin;
cur_y += height + 1;
++d->preedit_lines_;
}
// preedit strings are displayed with dashed underline
// and partial strings are displayed white on black indicating
// that we are in selecting mode in the input method.
// FIXME: rLength == preedit_length is not a changing condition
// FIXME: should be put out of the loop.
if (pos >= rStart
&& pos < rStart + rLength
&& !(cursor_pos < rLength && rLength == preedit_length))
ps = Painter::preedit_selecting;
if (pos == cursor_pos
&& (cursor_pos < rLength && rLength == preedit_length))
ps = Painter::preedit_cursor;
// draw one character and update cur_x.
cur_x += pain.preeditText(cur_x, cur_y, typed_char, font, ps);
}
// update the preedit string screen area.
update(0, cur_y - d->preedit_lines_*height, viewport()->width(),
(height + 1) * d->preedit_lines_);
// Don't forget to accept the event!
e->accept();
}
QVariant GuiWorkArea::inputMethodQuery(Qt::InputMethodQuery query) const
{
QRect cur_r(0, 0, 0, 0);
switch (query) {
// this is the CJK-specific composition window position and
// the context menu position when the menu key is pressed.
case Qt::ImMicroFocus:
cur_r = d->cursor_->rect();
if (d->preedit_lines_ != 1)
cur_r.moveLeft(10);
cur_r.moveBottom(cur_r.bottom()
+ cur_r.height() * (d->preedit_lines_ - 1));
// return lower right of cursor in LyX.
return cur_r;
default:
return QWidget::inputMethodQuery(query);
}
}
void GuiWorkArea::updateWindowTitle()
{
docstring maximize_title;
docstring minimize_title;
Buffer const & buf = d->buffer_view_->buffer();
FileName const file_name = buf.fileName();
if (!file_name.empty()) {
maximize_title = file_name.displayName(130);
minimize_title = from_utf8(file_name.onlyFileName());
if (buf.lyxvc().inUse()) {
if (buf.lyxvc().locking())
maximize_title += _(" (version control, locking)");
else
maximize_title += _(" (version control)");
}
if (!buf.isClean()) {
maximize_title += _(" (changed)");
minimize_title += char_type('*');
}
if (buf.isReadonly())
maximize_title += _(" (read only)");
}
QString const new_title = toqstr(maximize_title);
if (new_title != windowTitle()) {
QWidget::setWindowTitle(new_title);
QWidget::setWindowIconText(toqstr(minimize_title));
titleChanged(this);
}
}
bool GuiWorkArea::isFullScreen() const
{
return d->lyx_view_ && d->lyx_view_->isFullScreen();
}
void GuiWorkArea::scheduleRedraw()
{
d->schedule_redraw_ = true;
}
bool GuiWorkArea::inDialogMode() const
{
return d->dialog_mode_;
}
void GuiWorkArea::setDialogMode(bool mode)
{
d->dialog_mode_ = mode;
}
GuiCompleter & GuiWorkArea::completer()
{
return *d->completer_;
}
GuiView const & GuiWorkArea::view() const
{
return *d->lyx_view_;
}
GuiView & GuiWorkArea::view()
{
return *d->lyx_view_;
}
////////////////////////////////////////////////////////////////////
//
// EmbeddedWorkArea
//
////////////////////////////////////////////////////////////////////
EmbeddedWorkArea::EmbeddedWorkArea(QWidget * w): GuiWorkArea(w)
{
support::TempFile tempfile("embedded.internal");
tempfile.setAutoRemove(false);
buffer_ = theBufferList().newInternalBuffer(tempfile.name().absFileName());
buffer_->setUnnamed(true);
buffer_->setFullyLoaded(true);
setBuffer(*buffer_);
setDialogMode(true);
}
EmbeddedWorkArea::~EmbeddedWorkArea()
{
// No need to destroy buffer and bufferview here, because it is done
// in theBufferList() destruction loop at application exit
}
void EmbeddedWorkArea::closeEvent(QCloseEvent * ev)
{
disable();
GuiWorkArea::closeEvent(ev);
}
void EmbeddedWorkArea::hideEvent(QHideEvent * ev)
{
disable();
GuiWorkArea::hideEvent(ev);
}
QSize EmbeddedWorkArea::sizeHint () const
{
// FIXME(?):
// GuiWorkArea sets the size to the screen's viewport
// by returning a value this gets overridden
// EmbeddedWorkArea is now sized to fit in the layout
// of the parent, and has a minimum size set in GuiWorkArea
// which is what we return here
return QSize(100, 70);
}
void EmbeddedWorkArea::disable()
{
stopBlinkingCursor();
if (view().currentWorkArea() != this)
return;
// No problem if currentMainWorkArea() is 0 (setCurrentWorkArea()
// tolerates it and shows the background logo), what happens if
// an EmbeddedWorkArea is closed after closing all document WAs
view().setCurrentWorkArea(view().currentMainWorkArea());
}
////////////////////////////////////////////////////////////////////
//
// TabWorkArea
//
////////////////////////////////////////////////////////////////////
#ifdef Q_OS_MAC
class NoTabFrameMacStyle : public QProxyStyle {
public:
///
QRect subElementRect(SubElement element, const QStyleOption * option,
const QWidget * widget = 0) const
{
QRect rect = QProxyStyle::subElementRect(element, option, widget);
bool noBar = static_cast<QTabWidget const *>(widget)->count() <= 1;
// The Qt Mac style puts the contents into a 3 pixel wide box
// which looks very ugly and not like other Mac applications.
// Hence we remove this here, and moreover the 16 pixel round
// frame above if the tab bar is hidden.
if (element == QStyle::SE_TabWidgetTabContents) {
rect.adjust(- rect.left(), 0, rect.left(), 0);
if (noBar)
rect.setTop(0);
}
return rect;
}
};
NoTabFrameMacStyle noTabFrameMacStyle;
#endif
TabWorkArea::TabWorkArea(QWidget * parent)
: QTabWidget(parent), clicked_tab_(-1)
{
#ifdef Q_OS_MAC
setStyle(&noTabFrameMacStyle);
#endif
QPalette pal = palette();
pal.setColor(QPalette::Active, QPalette::Button,
pal.color(QPalette::Active, QPalette::Window));
pal.setColor(QPalette::Disabled, QPalette::Button,
pal.color(QPalette::Disabled, QPalette::Window));
pal.setColor(QPalette::Inactive, QPalette::Button,
pal.color(QPalette::Inactive, QPalette::Window));
QObject::connect(this, SIGNAL(currentChanged(int)),
this, SLOT(on_currentTabChanged(int)));
closeBufferButton = new QToolButton(this);
closeBufferButton->setPalette(pal);
// FIXME: rename the icon to closebuffer.png
closeBufferButton->setIcon(QIcon(getPixmap("images/", "closetab", "svgz,png")));
closeBufferButton->setText("Close File");
closeBufferButton->setAutoRaise(true);
closeBufferButton->setCursor(Qt::ArrowCursor);
closeBufferButton->setToolTip(qt_("Close File"));
closeBufferButton->setEnabled(true);
QObject::connect(closeBufferButton, SIGNAL(clicked()),
this, SLOT(closeCurrentBuffer()));
setCornerWidget(closeBufferButton, Qt::TopRightCorner);
// setup drag'n'drop
QTabBar* tb = new DragTabBar;
connect(tb, SIGNAL(tabMoveRequested(int, int)),
this, SLOT(moveTab(int, int)));
tb->setElideMode(Qt::ElideNone);
setTabBar(tb);
// make us responsible for the context menu of the tabbar
tb->setContextMenuPolicy(Qt::CustomContextMenu);
connect(tb, SIGNAL(customContextMenuRequested(const QPoint &)),
this, SLOT(showContextMenu(const QPoint &)));
connect(tb, SIGNAL(tabCloseRequested(int)),
this, SLOT(closeTab(int)));
setUsesScrollButtons(true);
}
void TabWorkArea::paintEvent(QPaintEvent * event)
{
if (tabBar()->isVisible()) {
QTabWidget::paintEvent(event);
} else {
// Prevent the selected tab to influence the
// painting of the frame of the tab widget.
// This is needed for gtk style in Qt.
QStylePainter p(this);
#if QT_VERSION < 0x050000
QStyleOptionTabWidgetFrameV2 opt;
#else
QStyleOptionTabWidgetFrame opt;
#endif
initStyleOption(&opt);
opt.rect = style()->subElementRect(QStyle::SE_TabWidgetTabPane,
&opt, this);
opt.selectedTabRect = QRect();
p.drawPrimitive(QStyle::PE_FrameTabWidget, opt);
}
}
void TabWorkArea::mouseDoubleClickEvent(QMouseEvent * event)
{
if (event->button() != Qt::LeftButton)
return;
// return early if double click on existing tabs
for (int i = 0; i < count(); ++i)
if (tabBar()->tabRect(i).contains(event->pos()))
return;
dispatch(FuncRequest(LFUN_BUFFER_NEW));
}
void TabWorkArea::setFullScreen(bool full_screen)
{
for (int i = 0; i != count(); ++i) {
if (GuiWorkArea * wa = workArea(i))
wa->setFullScreen(full_screen);
}
if (lyxrc.full_screen_tabbar)
showBar(!full_screen && count() > 1);
else
showBar(count() > 1);
}
void TabWorkArea::showBar(bool show)
{
tabBar()->setEnabled(show);
tabBar()->setVisible(show);
closeBufferButton->setVisible(show && lyxrc.single_close_tab_button);
setTabsClosable(!lyxrc.single_close_tab_button);
}
GuiWorkArea * TabWorkArea::currentWorkArea()
{
if (count() == 0)
return 0;
GuiWorkArea * wa = dynamic_cast<GuiWorkArea *>(currentWidget());
LATTEST(wa);
return wa;
}
GuiWorkArea * TabWorkArea::workArea(int index)
{
return dynamic_cast<GuiWorkArea *>(widget(index));
}
GuiWorkArea * TabWorkArea::workArea(Buffer & buffer)
{
// FIXME: this method doesn't work if we have more than work area
// showing the same buffer.
for (int i = 0; i != count(); ++i) {
GuiWorkArea * wa = workArea(i);
LASSERT(wa, return 0);
if (&wa->bufferView().buffer() == &buffer)
return wa;
}
return 0;
}
void TabWorkArea::closeAll()
{
while (count()) {
GuiWorkArea * wa = workArea(0);
LASSERT(wa, return);
removeTab(0);
delete wa;
}
}
bool TabWorkArea::setCurrentWorkArea(GuiWorkArea * work_area)
{
LASSERT(work_area, return false);
int index = indexOf(work_area);
if (index == -1)
return false;
if (index == currentIndex())
// Make sure the work area is up to date.
on_currentTabChanged(index);
else
// Switch to the work area.
setCurrentIndex(index);
work_area->setFocus();
return true;
}
GuiWorkArea * TabWorkArea::addWorkArea(Buffer & buffer, GuiView & view)
{
GuiWorkArea * wa = new GuiWorkArea(buffer, view);
wa->setUpdatesEnabled(false);
// Hide tabbar if there's no tab (avoid a resize and a flashing tabbar
// when hiding it again below).
if (!(currentWorkArea() && currentWorkArea()->isFullScreen()))
showBar(count() > 0);
addTab(wa, wa->windowTitle());
QObject::connect(wa, SIGNAL(titleChanged(GuiWorkArea *)),
this, SLOT(updateTabTexts()));
if (currentWorkArea() && currentWorkArea()->isFullScreen())
setFullScreen(true);
else
// Hide tabbar if there's only one tab.
showBar(count() > 1);
updateTabTexts();
return wa;
}
bool TabWorkArea::removeWorkArea(GuiWorkArea * work_area)
{
LASSERT(work_area, return false);
int index = indexOf(work_area);
if (index == -1)
return false;
work_area->setUpdatesEnabled(false);
removeTab(index);
delete work_area;
if (count()) {
// make sure the next work area is enabled.
currentWidget()->setUpdatesEnabled(true);
if (currentWorkArea() && currentWorkArea()->isFullScreen())
setFullScreen(true);
else
// Show tabbar only if there's more than one tab.
showBar(count() > 1);
} else
lastWorkAreaRemoved();
updateTabTexts();
return true;
}
void TabWorkArea::on_currentTabChanged(int i)
{
// returns e.g. on application destruction
if (i == -1)
return;
GuiWorkArea * wa = workArea(i);
LASSERT(wa, return);
wa->setUpdatesEnabled(true);
wa->redraw(true);
wa->setFocus();
///
currentWorkAreaChanged(wa);
LYXERR(Debug::GUI, "currentTabChanged " << i
<< " File: " << wa->bufferView().buffer().absFileName());
}
void TabWorkArea::closeCurrentBuffer()
{
GuiWorkArea * wa;
if (clicked_tab_ == -1)
wa = currentWorkArea();
else {
wa = workArea(clicked_tab_);
LASSERT(wa, return);
}
wa->view().closeWorkArea(wa);
}
void TabWorkArea::hideCurrentTab()
{
GuiWorkArea * wa;
if (clicked_tab_ == -1)
wa = currentWorkArea();
else {
wa = workArea(clicked_tab_);
LASSERT(wa, return);
}
wa->view().hideWorkArea(wa);
}
void TabWorkArea::closeTab(int index)
{
on_currentTabChanged(index);
GuiWorkArea * wa;
if (index == -1)
wa = currentWorkArea();
else {
wa = workArea(index);
LASSERT(wa, return);
}
wa->view().closeWorkArea(wa);
}
///
class DisplayPath {
public:
/// make vector happy
DisplayPath() {}
///
DisplayPath(int tab, FileName const & filename)
: tab_(tab)
{
filename_ = (filename.extension() == "lyx") ?
toqstr(filename.onlyFileNameWithoutExt())
: toqstr(filename.onlyFileName());
postfix_ = toqstr(filename.absoluteFilePath()).
split("/", QString::SkipEmptyParts);
postfix_.pop_back();
abs_ = toqstr(filename.absoluteFilePath());
dottedPrefix_ = false;
}
/// Absolute path for debugging.
QString abs() const
{
return abs_;
}
/// Add the first segment from the postfix or three dots to the prefix.
/// Merge multiple dot tripples. In fact dots are added lazily, i.e. only
/// when really needed.
void shiftPathSegment(bool dotted)
{
if (postfix_.count() <= 0)
return;
if (!dotted) {
if (dottedPrefix_ && !prefix_.isEmpty())
prefix_ += ".../";
prefix_ += postfix_.front() + "/";
}
dottedPrefix_ = dotted && !prefix_.isEmpty();
postfix_.pop_front();
}
///
QString displayString() const
{
if (prefix_.isEmpty())
return filename_;
bool dots = dottedPrefix_ || !postfix_.isEmpty();
return prefix_ + (dots ? ".../" : "") + filename_;
}
///
QString forecastPathString() const
{
if (postfix_.count() == 0)
return displayString();
return prefix_
+ (dottedPrefix_ ? ".../" : "")
+ postfix_.front() + "/";
}
///
bool final() const { return postfix_.empty(); }
///
int tab() const { return tab_; }
private:
///
QString prefix_;
///
QStringList postfix_;
///
QString filename_;
///
QString abs_;
///
int tab_;
///
bool dottedPrefix_;
};
///
bool operator<(DisplayPath const & a, DisplayPath const & b)
{
return a.displayString() < b.displayString();
}
///
bool operator==(DisplayPath const & a, DisplayPath const & b)
{
return a.displayString() == b.displayString();
}
void TabWorkArea::updateTabTexts()
{
size_t n = count();
if (n == 0)
return;
std::list<DisplayPath> paths;
typedef std::list<DisplayPath>::iterator It;
// collect full names first: path into postfix, empty prefix and
// filename without extension
for (size_t i = 0; i < n; ++i) {
GuiWorkArea * i_wa = workArea(i);
FileName const fn = i_wa->bufferView().buffer().fileName();
paths.push_back(DisplayPath(i, fn));
}
// go through path segments and see if it helps to make the path more unique
bool somethingChanged = true;
bool allFinal = false;
while (somethingChanged && !allFinal) {
// adding path segments changes order
paths.sort();
LYXERR(Debug::GUI, "updateTabTexts() iteration start");
somethingChanged = false;
allFinal = true;
// find segments which are not unique (i.e. non-atomic)
It it = paths.begin();
It segStart = it;
QString segString = it->displayString();
for (; it != paths.end(); ++it) {
// look to the next item
It next = it;
++next;
// final?
allFinal = allFinal && it->final();
LYXERR(Debug::GUI, "it = " << it->abs()
<< " => " << it->displayString());
// still the same segment?
QString nextString;
if ((next != paths.end()
&& (nextString = next->displayString()) == segString))
continue;
LYXERR(Debug::GUI, "segment ended");
// only a trivial one with one element?
if (it == segStart) {
// start new segment
segStart = next;
segString = nextString;
continue;
}
// we found a non-atomic segment segStart <= sit <= it < next.
// Shift path segments and hope for the best
// that it makes the path more unique.
somethingChanged = true;
It sit = segStart;
QString dspString = sit->forecastPathString();
LYXERR(Debug::GUI, "first forecast found for "
<< sit->abs() << " => " << dspString);
++sit;
bool moreUnique = false;
for (; sit != next; ++sit) {
if (sit->forecastPathString() != dspString) {
LYXERR(Debug::GUI, "different forecast found for "
<< sit->abs() << " => " << sit->forecastPathString());
moreUnique = true;
break;
}
LYXERR(Debug::GUI, "same forecast found for "
<< sit->abs() << " => " << dspString);
}
// if the path segment helped, add it. Otherwise add dots
bool dots = !moreUnique;
LYXERR(Debug::GUI, "using dots = " << dots);
for (sit = segStart; sit != next; ++sit) {
sit->shiftPathSegment(dots);
LYXERR(Debug::GUI, "shifting "
<< sit->abs() << " => " << sit->displayString());
}
// start new segment
segStart = next;
segString = nextString;
}
}
// set new tab titles
for (It it = paths.begin(); it != paths.end(); ++it) {
int const tab_index = it->tab();
Buffer const & buf = workArea(tab_index)->bufferView().buffer();
QString tab_text = it->displayString().replace("&", "&&");
if (!buf.fileName().empty() && !buf.isClean())
tab_text += "*";
QString tab_tooltip = it->abs();
if (buf.isReadonly()) {
setTabIcon(tab_index, QIcon(getPixmap("images/", "emblem-readonly", "svgz,png")));
tab_tooltip = qt_("%1 (read only)").arg(it->abs());
} else
setTabIcon(tab_index, QIcon());
setTabText(tab_index, tab_text);
setTabToolTip(tab_index, tab_tooltip);
}
}
void TabWorkArea::showContextMenu(const QPoint & pos)
{
// which tab?
clicked_tab_ = static_cast<DragTabBar *>(tabBar())->tabAt(pos);
if (clicked_tab_ == -1)
return;
// show tab popup
QMenu popup;
popup.addAction(QIcon(getPixmap("images/", "hidetab", "svgz,png")),
qt_("Hide tab"), this, SLOT(hideCurrentTab()));
popup.addAction(QIcon(getPixmap("images/", "closetab", "svgz,png")),
qt_("Close tab"), this, SLOT(closeCurrentBuffer()));
popup.exec(tabBar()->mapToGlobal(pos));
clicked_tab_ = -1;
}
void TabWorkArea::moveTab(int fromIndex, int toIndex)
{
QWidget * w = widget(fromIndex);
QIcon icon = tabIcon(fromIndex);
QString text = tabText(fromIndex);
setCurrentIndex(fromIndex);
removeTab(fromIndex);
insertTab(toIndex, w, icon, text);
setCurrentIndex(toIndex);
}
DragTabBar::DragTabBar(QWidget* parent)
: QTabBar(parent)
{
setAcceptDrops(true);
setTabsClosable(!lyxrc.single_close_tab_button);
}
void DragTabBar::mousePressEvent(QMouseEvent * event)
{
if (event->button() == Qt::LeftButton)
dragStartPos_ = event->pos();
QTabBar::mousePressEvent(event);
}
void DragTabBar::mouseMoveEvent(QMouseEvent * event)
{
// If the left button isn't pressed anymore then return
if (!(event->buttons() & Qt::LeftButton))
return;
// If the distance is too small then return
if ((event->pos() - dragStartPos_).manhattanLength()
< QApplication::startDragDistance())
return;
// did we hit something after all?
int tab = tabAt(dragStartPos_);
if (tab == -1)
return;
// simulate button release to remove highlight from button
int i = currentIndex();
QMouseEvent me(QEvent::MouseButtonRelease, dragStartPos_,
event->button(), event->buttons(), 0);
QTabBar::mouseReleaseEvent(&me);
setCurrentIndex(i);
// initiate Drag
QDrag * drag = new QDrag(this);
QMimeData * mimeData = new QMimeData;
// a crude way to distinguish tab-reodering drops from other ones
mimeData->setData("action", "tab-reordering") ;
drag->setMimeData(mimeData);
// get tab pixmap as cursor
QRect r = tabRect(tab);
QPixmap pixmap(r.size());
render(&pixmap, - r.topLeft());
drag->setPixmap(pixmap);
drag->exec();
}
void DragTabBar::dragEnterEvent(QDragEnterEvent * event)
{
// Only accept if it's an tab-reordering request
QMimeData const * m = event->mimeData();
QStringList formats = m->formats();
if (formats.contains("action")
&& m->data("action") == "tab-reordering")
event->acceptProposedAction();
}
void DragTabBar::dropEvent(QDropEvent * event)
{
int fromIndex = tabAt(dragStartPos_);
int toIndex = tabAt(event->pos());
// Tell interested objects that
if (fromIndex != toIndex)
tabMoveRequested(fromIndex, toIndex);
event->acceptProposedAction();
}
} // namespace frontend
} // namespace lyx
#include "moc_GuiWorkArea.cpp"