/** * \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 #include "GuiWorkArea.h" #include "GuiApplication.h" #include "GuiPainter.h" #include "GuiKeySymbol.h" #include "qt_helpers.h" #include "frontends/LyXView.h" #include "Buffer.h" #include "BufferView.h" #include "Color.h" #include "Cursor.h" #include "debug.h" #include "FuncRequest.h" #include "LyXFunc.h" #include "LyXRC.h" #include "version.h" #include "graphics/GraphicsImage.h" #include "graphics/GraphicsLoader.h" #include #include #include #include #include #include #include #include #include #include #include #ifdef Q_WS_X11 #include extern "C" int XEventsQueued(Display *display, int mode); #endif #ifdef Q_WS_WIN int const CursorWidth = 2; #else int const CursorWidth = 1; #endif #undef KeyPress #undef NoModifier using std::endl; using std::string; namespace lyx { using support::FileName; /// 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() {} void draw(QPainter & painter) { if (show_ && rect_.isValid()) { switch (shape_) { case L_SHAPE: painter.fillRect(rect_.x(), rect_.y(), CursorWidth, rect_.height(), color_); painter.setPen(color_); painter.drawLine(rect_.bottomLeft().x() + CursorWidth, rect_.bottomLeft().y(), rect_.bottomRight().x(), rect_.bottomLeft().y()); break; case REVERSED_L_SHAPE: painter.fillRect(rect_.x() + rect_.height() / 3, rect_.y(), CursorWidth, rect_.height(), color_); painter.setPen(color_); painter.drawLine(rect_.bottomRight().x() - CursorWidth, rect_.bottomLeft().y(), rect_.bottomLeft().x(), rect_.bottomLeft().y()); break; default: painter.fillRect(rect_, color_); break; } } } void update(int x, int y, int h, CursorShape shape) { color_ = guiApp->colorCache().get(Color::cursor); shape_ = shape; switch (shape) { case L_SHAPE: rect_ = QRect(x, y, CursorWidth + h / 3, h); break; case REVERSED_L_SHAPE: rect_ = QRect(x - h / 3, y, CursorWidth + h / 3, h); break; default: rect_ = QRect(x, y, CursorWidth, h); break; } } void show(bool set_show = true) { show_ = set_show; } void hide() { show_ = false; } QRect const & rect() { return rect_; } private: /// CursorShape shape_; /// bool show_; /// QColor color_; /// QRect rect_; }; // 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), x_old(-1), y_old(-1), scrollbar_value_old(-1.0) {} GuiWorkArea::GuiWorkArea(Buffer & buf, LyXView & lv) : WorkArea(buf, lv), need_resize_(false), schedule_redraw_(false), preedit_lines_(1) { screen_ = QPixmap(viewport()->width(), viewport()->height()); cursor_ = new frontend::CursorWidget(); cursor_->hide(); setVerticalScrollBarPolicy(Qt::ScrollBarAsNeeded); setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOff); setAcceptDrops(true); setMouseTracking(true); setMinimumSize(100, 70); 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::WheelFocus); viewport()->setCursor(Qt::IBeamCursor); synthetic_mouse_event_.timeout.timeout.connect( boost::bind(&GuiWorkArea::generateSyntheticMouseEvent, this)); // Initialize the vertical Scroll Bar QObject::connect(verticalScrollBar(), SIGNAL(actionTriggered(int)), this, SLOT(adjustViewWithScrollBar(int))); // disable context menu for the scrollbar verticalScrollBar()->setContextMenuPolicy(Qt::NoContextMenu); // PageStep only depends on the viewport height. verticalScrollBar()->setPageStep(viewport()->height()); LYXERR(Debug::GUI) << BOOST_CURRENT_FUNCTION << "\n Area width\t" << width() << "\n Area height\t" << height() << "\n viewport width\t" << viewport()->width() << "\n viewport height\t" << viewport()->height() << endl; // Enables input methods for asian languages. // Must be set when creating custom text editing widgets. setAttribute(Qt::WA_InputMethodEnabled, true); } void GuiWorkArea::setScrollbarParams(int h, int scroll_pos, int scroll_line_step) { if (verticalScrollBarPolicy() != Qt::ScrollBarAlwaysOn) setVerticalScrollBarPolicy(Qt::ScrollBarAlwaysOn); verticalScrollBar()->setTracking(false); // do what cursor movement does (some grey) h += height() / 4; int scroll_max_ = std::max(0, h - height()); verticalScrollBar()->setRange(0, scroll_max_); verticalScrollBar()->setSliderPosition(scroll_pos); verticalScrollBar()->setSingleStep(scroll_line_step); verticalScrollBar()->setValue(scroll_pos); verticalScrollBar()->setTracking(true); } void GuiWorkArea::adjustViewWithScrollBar(int action) { stopBlinkingCursor(); if (action == QAbstractSlider::SliderPageStepAdd) buffer_view_->scrollDown(viewport()->height()); else if (action == QAbstractSlider::SliderPageStepSub) buffer_view_->scrollUp(viewport()->height()); else buffer_view_->scrollDocView(verticalScrollBar()->sliderPosition()); if (lyxrc.cursor_follows_scrollbar) { buffer_view_->setCursorFromScrollbar(); lyx_view_->updateLayoutChoice(); } // Show the cursor immediately after any operation. startBlinkingCursor(); QApplication::syncX(); } void GuiWorkArea::focusInEvent(QFocusEvent * /*event*/) { // Repaint the whole screen. // Note: this is different from redraw() as only the backing pixmap // will be redrawn, which is cheap. viewport()->repaint(); startBlinkingCursor(); } void GuiWorkArea::focusOutEvent(QFocusEvent * /*event*/) { stopBlinkingCursor(); } void GuiWorkArea::mousePressEvent(QMouseEvent * e) { if (dc_event_.active && dc_event_ == *e) { dc_event_.active = false; FuncRequest cmd(LFUN_MOUSE_TRIPLE, e->x(), e->y(), q_button_state(e->button())); dispatch(cmd); return; } inputContext()->reset(); FuncRequest const cmd(LFUN_MOUSE_PRESS, e->x(), e->y(), q_button_state(e->button())); dispatch(cmd, q_key_state(e->modifiers())); } void GuiWorkArea::mouseReleaseEvent(QMouseEvent * e) { if (synthetic_mouse_event_.timeout.running()) synthetic_mouse_event_.timeout.stop(); FuncRequest const cmd(LFUN_MOUSE_RELEASE, e->x(), e->y(), q_button_state(e->button())); dispatch(cmd); } 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())); // If we're above or below the work area... if (e->y() <= 20 || e->y() >= viewport()->height() - 20) { // 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.y = -40; else cmd.y = viewport()->height(); // Store the event, to be handled when the timeout expires. synthetic_mouse_event_.cmd = cmd; if (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; else { synthetic_mouse_event_.restart_timeout = true; synthetic_mouse_event_.timeout.start(); // Fall through to handle this event... } } else if (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. synthetic_mouse_event_.cmd = cmd; synthetic_mouse_event_.restart_timeout = false; return; } // Has anything changed on-screen since the last QMouseEvent // was received? double const scrollbar_value = verticalScrollBar()->value(); if (e->x() != synthetic_mouse_event_.x_old || e->y() != synthetic_mouse_event_.y_old || scrollbar_value != synthetic_mouse_event_.scrollbar_value_old) { // Yes it has. Store the params used to check this. synthetic_mouse_event_.x_old = e->x(); synthetic_mouse_event_.y_old = e->y(); synthetic_mouse_event_.scrollbar_value_old = scrollbar_value; // ... and dispatch the event to the LyX core. dispatch(cmd); } } void GuiWorkArea::wheelEvent(QWheelEvent * e) { // Wheel rotation by one notch results in a delta() of 120 (see // documentation of QWheelEvent) int const lines = qApp->wheelScrollLines() * e->delta() / 120; verticalScrollBar()->setValue(verticalScrollBar()->value() - lines * verticalScrollBar()->singleStep()); adjustViewWithScrollBar(); } void GuiWorkArea::generateSyntheticMouseEvent() { // Set things off to generate the _next_ 'pseudo' event. if (synthetic_mouse_event_.restart_timeout) synthetic_mouse_event_.timeout.start(); // Has anything changed on-screen since the last timeout signal // was received? double const scrollbar_value = verticalScrollBar()->value(); if (scrollbar_value != synthetic_mouse_event_.scrollbar_value_old) { // Yes it has. Store the params used to check this. synthetic_mouse_event_.scrollbar_value_old = scrollbar_value; // ... and dispatch the event to the LyX core. dispatch(synthetic_mouse_event_.cmd); } } void GuiWorkArea::keyPressEvent(QKeyEvent * ev) { // do nothing if there are other events // (the auto repeated events come too fast) // \todo FIXME: remove hard coded Qt keys, process the key binding #ifdef Q_WS_X11 if (XEventsQueued(QX11Info::display(), 0) > 1 && ev->isAutoRepeat() && (Qt::Key_PageDown || Qt::Key_PageUp)) { LYXERR(Debug::KEY) << BOOST_CURRENT_FUNCTION << endl << "system is busy: scroll key event ignored" << endl; ev->ignore(); return; } #endif LYXERR(Debug::KEY) << BOOST_CURRENT_FUNCTION << " count=" << ev->count() << " text=" << fromqstr(ev->text()) << " isAutoRepeat=" << ev->isAutoRepeat() << " key=" << ev->key() << endl; KeySymbol sym; setKeySymbol(&sym, ev); processKeySym(sym, q_key_state(ev->modifiers())); } void GuiWorkArea::doubleClickTimeout() { dc_event_.active = false; } void GuiWorkArea::mouseDoubleClickEvent(QMouseEvent * ev) { dc_event_ = double_click(ev); QTimer::singleShot(QApplication::doubleClickInterval(), this, SLOT(doubleClickTimeout())); FuncRequest cmd(LFUN_MOUSE_DOUBLE, ev->x(), ev->y(), q_button_state(ev->button())); dispatch(cmd); } void GuiWorkArea::resizeEvent(QResizeEvent * ev) { QAbstractScrollArea::resizeEvent(ev); need_resize_ = true; } void GuiWorkArea::update(int x, int y, int w, int h) { viewport()->repaint(x, y, w, h); } void GuiWorkArea::paintEvent(QPaintEvent * ev) { QRect const rc = ev->rect(); /* LYXERR(Debug::PAINTING) << "paintEvent begin: x: " << rc.x() << " y: " << rc.y() << " w: " << rc.width() << " h: " << rc.height() << endl; */ if (need_resize_) { verticalScrollBar()->setPageStep(viewport()->height()); screen_ = QPixmap(viewport()->width(), viewport()->height()); resizeBufferView(); updateScreen(); WorkArea::hideCursor(); WorkArea::showCursor(); need_resize_ = false; } QPainter pain(viewport()); pain.drawPixmap(rc, screen_, rc); cursor_->draw(pain); } void GuiWorkArea::expose(int x, int y, int w, int h) { updateScreen(); update(x, y, w, h); } void GuiWorkArea::updateScreen() { GuiPainter pain(&screen_); verticalScrollBar()->show(); buffer_view_->draw(pain); } void GuiWorkArea::showCursor(int x, int y, int h, CursorShape shape) { if (schedule_redraw_) { buffer_view_->updateMetrics(false); updateScreen(); viewport()->update(QRect(0, 0, viewport()->width(), viewport()->height())); schedule_redraw_ = false; // Show the cursor immediately after the update. hideCursor(); toggleCursor(); return; } cursor_->update(x, y, h, shape); cursor_->show(); viewport()->update(cursor_->rect()); } void GuiWorkArea::removeCursor() { cursor_->hide(); //if (!qApp->focusWidget()) 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) << BOOST_CURRENT_FUNCTION << " preeditString =" << fromqstr(e->preeditString()) << " commitString =" << fromqstr(e->commitString()) << endl; 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. 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(&screen_); buffer_view_->updateMetrics(false); buffer_view_->draw(pain); Font font = buffer_view_->cursor().getFont(); FontMetrics const & fm = theFontMetrics(font); int height = fm.maxHeight(); int cur_x = cursor_->rect().left(); int cur_y = cursor_->rect().bottom(); // redraw area of preedit string. update(0, cur_y - height, GuiWorkArea::width(), (height + 1) * preedit_lines_); if (preedit_string.empty()) { last_width = false; preedit_lines_ = 1; e->accept(); return; } last_width = true; // att : stores an IM attribute. QList 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 = rightMargin(); Painter::preedit_style ps; // Most often there would be only one line: 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) > GuiWorkArea::width() - right_margin) { cur_x = right_margin; cur_y += height + 1; ++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 - preedit_lines_*height, GuiWorkArea::width(), (height + 1) * 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. case Qt::ImMicroFocus: cur_r = cursor_->rect(); if (preedit_lines_ != 1) cur_r.moveLeft(10); cur_r.moveBottom(cur_r.bottom() + cur_r.height() * preedit_lines_); // return lower right of cursor in LyX. return cur_r; default: return QWidget::inputMethodQuery(query); } } //////////////////////////////////////////////////////////////////// // // TabWorkArea // //////////////////////////////////////////////////////////////////// TabWorkArea::TabWorkArea(QWidget * parent): QTabWidget(parent) { 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)); QToolButton * closeTabButton = new QToolButton(this); closeTabButton->setPalette(pal); closeTabButton->setIcon(QIcon(":/images/closetab.png")); closeTabButton->setText("Close"); closeTabButton->setAutoRaise(true); closeTabButton->setCursor(Qt::ArrowCursor); closeTabButton->setToolTip(tr("Close tab")); closeTabButton->setEnabled(true); QObject::connect(this, SIGNAL(currentChanged(int)), this, SLOT(on_currentTabChanged(int))); QObject::connect(closeTabButton, SIGNAL(clicked()), this, SLOT(closeCurrentTab())); setCornerWidget(closeTabButton); #if QT_VERSION >= 0x040200 setUsesScrollButtons(true); #endif } void TabWorkArea::showBar(bool show) { tabBar()->setVisible(show); } GuiWorkArea * TabWorkArea::currentWorkArea() { if (count() == 0) return 0; GuiWorkArea * wa = dynamic_cast(currentWidget()); BOOST_ASSERT(wa); return wa; } GuiWorkArea * TabWorkArea::workArea(Buffer & buffer) { for (int i = 0; i != count(); ++i) { GuiWorkArea * wa = dynamic_cast(widget(i)); BOOST_ASSERT(wa); if (&wa->bufferView().buffer() == &buffer) return wa; } return 0; } void TabWorkArea::closeAll() { while (count()) { GuiWorkArea * wa = dynamic_cast(widget(0)); BOOST_ASSERT(wa); removeTab(0); delete wa; } } bool TabWorkArea::setCurrentWorkArea(GuiWorkArea * work_area) { BOOST_ASSERT(work_area); 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; } bool TabWorkArea::removeWorkArea(GuiWorkArea * work_area) { BOOST_ASSERT(work_area); 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); // Hide tabbar if there's only one tab. showBar(count() > 1); } return true; } void TabWorkArea::on_currentTabChanged(int i) { GuiWorkArea * wa = dynamic_cast(widget(i)); BOOST_ASSERT(wa); BufferView & bv = wa->bufferView(); bv.updateMetrics(false); bv.cursor().fixIfBroken(); wa->setUpdatesEnabled(true); wa->redraw(); wa->setFocus(); /// currentWorkAreaChanged(wa); LYXERR(Debug::GUI) << "currentTabChanged " << i << "File" << bv.buffer().absFileName() << endl; } void TabWorkArea::closeCurrentTab() { lyx::dispatch(FuncRequest(LFUN_BUFFER_CLOSE)); } } // namespace frontend } // namespace lyx #include "GuiWorkArea_moc.cpp"