#include "tqtglobaldefines.h" #if 0 /**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the Qt3Support module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial Usage ** Licensees holding valid Qt Commercial licenses may use this file in ** accordance with the Qt Commercial License Agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Nokia. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain additional ** rights. These rights are described in the Nokia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "tqaccel.h" #include "tqsignal.h" #include "Qt/qapplication.h" #include "Qt/qwidget.h" #include "tqptrlist.h" #include "Qt/qwhatsthis.h" #include "Qt/qpointer.h" #include "Qt/qstatusbar.h" #include "Qt/qdockwidget.h" #include "Qt/qevent.h" #include "Qt/qkeysequence.h" // #include "private/qapplication_p.h" QT_BEGIN_NAMESPACE using namespace Qt; /*! \class TQAccel \brief The TQAccel class handles keyboard accelerator and shortcut keys. \compat A keyboard accelerator triggers an action when a certain key combination is pressed. The accelerator handles all keyboard activity for all the children of one top-level widget, so it is not affected by the keyboard focus. In most cases, you will not need to use this class directly. Use the QAction class to create actions with accelerators that can be used in both menus and toolbars. If you're only interested in menus use Q3MenuData::insertItem() or Q3MenuData::setAccel() to make accelerators for operations that are also available on menus. Many widgets automatically generate accelerators, such as QAbstractButton, QGroupBox, QLabel (with QLabel::setBuddy()), QMenuBar, and QTabBar. Example: \snippet doc/src/snippets/code/src_qt3support_other_q3accel.cpp 0 A TQAccel contains a list of accelerator items that can be manipulated using insertItem(), removeItem(), clear(), key() and findKey(). Each accelerator item consists of an identifier and a \l QKeySequence. A single key sequence consists of a keyboard code combined with modifiers (Qt::SHIFT, Qt::CTRL, Qt::ALT, or Qt::UNICODE_ACCEL). For example, Qt::CTRL + Qt::Key_P could be a shortcut for printing a document. As an alternative, use Qt::UNICODE_ACCEL with the tqunicode code point of the character. For example, Qt::UNICODE_ACCEL + 'A' gives the same accelerator as Qt::Key_A. When an accelerator key is pressed, the accelerator sends out the signal activated() with a number that identifies this particular accelerator item. Accelerator items can also be individually connected, so that two different keys will activate two different Q_SLOTS (see connectItem() and disconnectItem()). The activated() signal is \e not emitted when two or more accelerators match the same key. Instead, the first matching accelerator sends out the activatedAmbiguously() signal. By pressing the key multiple times, users can navigate between all matching accelerators. Some standard controls like QPushButton and QCheckBox connect the activatedAmbiguously() signal to the harmless setFocus() slot, whereas activated() is connected to a slot invoking the button's action. Most controls, like QLabel and QTabBar, treat activated() and activatedAmbiguously() as equivalent. Use setEnabled() to enable or disable all the items in an accelerator, or setItemEnabled() to enable or disable individual items. An item is active only when both the TQAccel and the item itself are enabled. The function setWhatsThis() specifies a help text that appears when the user presses an accelerator key in What's This mode. The accelerator will be deleted when \e parent is deleted, and will consume relevant key events until then. Please note that the accelerator \snippet doc/src/snippets/code/src_qt3support_other_q3accel.cpp 1 can be triggered with both the 'M' key, and with Shift+M, unless a second accelerator is defined for the Shift+M combination. Example: \snippet doc/src/snippets/code/src_qt3support_other_q3accel.cpp 2 \sa QKeyEvent QWidget::keyPressEvent() QAbstractButton::setAccel() QLabel::setBuddy() QKeySequence */ struct TQAccelItem { // internal accelerator item TQAccelItem(const QKeySequence &k, int i) { key=k; id=i; enabled=true; signal=0; } ~TQAccelItem() { delete signal; } int id; QKeySequence key; bool enabled; TQSignal *signal; QString whatsthis; }; typedef TQPtrList TQAccelList; // internal accelerator list class TQAccelPrivate { public: TQAccelPrivate(TQAccel* p); ~TQAccelPrivate(); TQAccelList aitems; bool enabled; QPointer watch; bool ignorewhatsthis; TQAccel* parent; void activate(TQAccelItem* item); void activateAmbiguously(TQAccelItem* item); }; class TQAccelManager { public: static TQAccelManager* self() { return self_ptr ? self_ptr : new TQAccelManager; } void registerAccel(TQAccelPrivate* a) { accels.append(a); } void unregisterAccel(TQAccelPrivate* a) { accels.removeRef(a); if (accels.isEmpty()) delete this; } bool tryAccelEvent(QWidget* w, QKeyEvent* e); bool dispatchAccelEvent(QWidget* w, QKeyEvent* e); bool tryComposeUnicode(QWidget* w, QKeyEvent* e); private: TQAccelManager() : currentState(QKeySequence::NoMatch), clash(-1), metaComposeUnicode(false),composedUnicode(0) { setFuncPtr(); self_ptr = this; } ~TQAccelManager() { self_ptr = 0; } void setFuncPtr(); bool correctSubWindow(QWidget *w, TQAccelPrivate* d); QKeySequence::SequenceMatch match(QKeyEvent* e, TQAccelItem* item, QKeySequence& temp); int translateModifiers(ButtonState state); TQPtrList accels; static TQAccelManager* self_ptr; QKeySequence::SequenceMatch currentState; QKeySequence intermediate; int clash; bool metaComposeUnicode; int composedUnicode; }; TQAccelManager* TQAccelManager::self_ptr = 0; bool Q_COMPAT_EXPORT qt_tryAccelEvent(QWidget* w, QKeyEvent* e){ return TQAccelManager::self()->tryAccelEvent(w, e); } bool Q_COMPAT_EXPORT qt_dispatchAccelEvent(QWidget* w, QKeyEvent* e){ return TQAccelManager::self()->dispatchAccelEvent(w, e); } bool Q_COMPAT_EXPORT qt_tryComposeUnicode(QWidget* w, QKeyEvent* e){ return TQAccelManager::self()->tryComposeUnicode(w, e); } void TQAccelManager::setFuncPtr() { if (qApp->d_func()->qt_compat_used) return; QApplicationPrivate *data = static_cast(qApp->d_ptr.data()); data->qt_tryAccelEvent = qt_tryAccelEvent; data->qt_tryComposeUnicode = qt_tryComposeUnicode; data->qt_dispatchAccelEvent = qt_dispatchAccelEvent; data->qt_compat_used = true; } #ifdef Q_WS_MAC static bool qt_accel_no_shortcuts = true; #else static bool qt_accel_no_shortcuts = false; #endif void Q_COMPAT_EXPORT qt_set_accel_auto_shortcuts(bool b) { qt_accel_no_shortcuts = b; } /* \internal Returns true if the accel is in the current subwindow, else false. */ bool TQAccelManager::correctSubWindow(QWidget* w, TQAccelPrivate* d) { #if !defined (Q_OS_MACX) if (!d->watch || !d->watch->isVisible() || !d->watch->isEnabled()) #else if (!d->watch || (!d->watch->isVisible() && !d->watch->inherits("QMenuBar")) || !d->watch->isEnabled()) #endif return false; QWidget* tlw = w->window(); QWidget* wtlw = d->watch->window(); /* if we live in a floating dock window, keep our parent's * accelerators working */ #ifndef QT_NO_MAINWINDOW if ((tlw->windowType() == Qt::Dialog) && tlw->parentWidget() && qobject_cast(tlw)) return tlw->parentWidget()->window() == wtlw; if (wtlw != tlw) return false; #endif /* if we live in a MDI subwindow, ignore the event if we are not the active document window */ QWidget* sw = d->watch; while (sw && sw->windowType() != Qt::SubWindow) sw = sw->parentWidget(true); if (sw) { // we are in a subwindow indeed QWidget* fw = w; while (fw && fw != sw) fw = fw->parentWidget(true); if (fw != sw) // focus widget not in our subwindow return false; } return true; } inline int TQAccelManager::translateModifiers(ButtonState state) { int result = 0; if (state & ShiftButton) result |= SHIFT; if (state & ControlButton) result |= CTRL; if (state & MetaButton) result |= META; if (state & AltButton) result |= ALT; return result; } /* \internal Matches the current intermediate key sequence + the latest keyevent, with and AccelItem. Returns Identical, PartialMatch or NoMatch, and fills \a temp with the resulting key sequence. */ QKeySequence::SequenceMatch TQAccelManager::match(QKeyEvent *e, TQAccelItem* item, QKeySequence& temp) { QKeySequence::SequenceMatch result = QKeySequence::NoMatch; int index = intermediate.count(); temp = intermediate; int modifier = translateModifiers(e->state()); if (e->key() && e->key() != Key_unknown) { int key = e->key() | modifier; if (e->key() == Key_BackTab) { /* In QApplication, we map shift+tab to shift+backtab. This code here reverts the mapping in a way that keeps backtab and shift+tab accelerators working, in that order, meaning backtab has priority.*/ key &= ~SHIFT; temp.setKey(key, index); if (QKeySequence::NoMatch != (result = temp.matches(item->key))) return result; if (e->state() & ShiftButton) key |= SHIFT; key = Key_Tab | (key & MODIFIER_MASK); temp.setKey(key, index); if (QKeySequence::NoMatch != (result = temp.matches(item->key))) return result; } else { temp.setKey(key, index); if (QKeySequence::NoMatch != (result = temp.matches(item->key))) return result; } if (key == Key_BackTab) { if (e->state() & ShiftButton) key |= SHIFT; temp.setKey(key, index); if (QKeySequence::NoMatch != (result = temp.matches(item->key))) return result; } } if (!e->text().isEmpty()) { temp.setKey((int)e->text()[0].tqunicode() | UNICODE_ACCEL | modifier, index); result = temp.matches(item->key); } return result; } bool TQAccelManager::tryAccelEvent(QWidget* w, QKeyEvent* e) { if (QKeySequence::NoMatch == currentState) { e->t = QEvent::AccelOverride; e->ignore(); QApplication::sendSpontaneousEvent(w, e); if (e->isAccepted()) return false; } e->t = QEvent::Accel; e->ignore(); QApplication::sendSpontaneousEvent(w, e); return e->isAccepted(); } bool TQAccelManager::tryComposeUnicode(QWidget* w, QKeyEvent* e) { if (metaComposeUnicode) { int value = e->key() - Key_0; // Ignore acceloverrides so we don't trigger // accels on keypad when Meta compose is on if ((e->type() == QEvent::AccelOverride) && (e->state() == Qt::Keypad + Qt::MetaButton)) { e->accept(); // Meta compose start/continue } else if ((e->type() == QEvent::KeyPress) && (e->state() == Qt::Keypad + Qt::MetaButton)) { if (value >= 0 && value <= 9) { composedUnicode *= 10; composedUnicode += value; return true; } else { // Composing interrupted, dispatch! if (composedUnicode) { QChar ch(composedUnicode); QString s(ch); QKeyEvent kep(QEvent::KeyPress, 0, ch.row() ? 0 : ch.cell(), 0, s); QKeyEvent ker(QEvent::KeyRelease, 0, ch.row() ? 0 : ch.cell(), 0, s); QApplication::sendEvent(w, &kep); QApplication::sendEvent(w, &ker); } composedUnicode = 0; return true; } // Meta compose end, dispatch } else if ((e->type() == QEvent::KeyRelease) && (e->key() == Key_Meta) && (composedUnicode != 0)) { if ((composedUnicode > 0) && (composedUnicode < 0xFFFE)) { QChar ch(composedUnicode); QString s(ch); QKeyEvent kep(QEvent::KeyPress, 0, ch.row() ? 0 : ch.cell(), 0, s); QKeyEvent ker(QEvent::KeyRelease, 0, ch.row() ? 0 : ch.cell(), 0, s); QApplication::sendEvent(w, &kep); QApplication::sendEvent(w, &ker); } composedUnicode = 0; return true; } } return false; } /* \internal Checks for possible accelerators, if no widget ate the keypres, or we are in the middle of a partial key sequence. */ bool TQAccelManager::dispatchAccelEvent(QWidget* w, QKeyEvent* e) { #ifndef QT_NO_STATUSBAR // Needs to be declared and used here because of "goto doclash" QStatusBar* mainStatusBar = 0; #endif // Modifiers can NOT be accelerators... if (e->key() >= Key_Shift && e->key() <= Key_Alt) return false; QKeySequence::SequenceMatch result = QKeySequence::NoMatch; QKeySequence tocheck, partial; TQAccelPrivate* accel = 0; TQAccelItem* item = 0; TQAccelPrivate* firstaccel = 0; TQAccelItem* firstitem = 0; TQAccelPrivate* lastaccel = 0; TQAccelItem* lastitem = 0; QKeyEvent pe = *e; int n = -1; int hasShift = (e->state()&Qt::ShiftButton)?1:0; bool identicalDisabled = false; bool matchFound = false; do { accel = accels.first(); matchFound = false; while (accel) { if (correctSubWindow(w, accel)) { if (accel->enabled) { item = accel->aitems.last(); while(item) { if (QKeySequence::Identical == (result = match(&pe, item, tocheck))) { if (item->enabled) { if (!firstaccel) { firstaccel = accel; firstitem = item; } lastaccel = accel; lastitem = item; n++; matchFound = true; if (n > QMAX(clash,0)) goto doclash; } else { identicalDisabled = true; } } if (item->enabled && QKeySequence::PartialMatch == result) { partial = tocheck; matchFound = true; } item = accel->aitems.prev(); } } else { item = accel->aitems.last(); while(item) { if (QKeySequence::Identical == match(&pe, item, tocheck)) identicalDisabled = true; item = accel->aitems.prev(); } } } accel = accels.next(); } pe = QKeyEvent(QEvent::Accel, pe.key(), pe.ascii(), pe.state()&~Qt::ShiftButton, pe.text()); } while (hasShift-- && !matchFound && !identicalDisabled); #ifndef QT_NO_STATUSBAR mainStatusBar = (QStatusBar*) w->window()->child(0, "QStatusBar"); #endif if (n < 0) { // no match found currentState = partial.count() ? QKeySequence::PartialMatch : QKeySequence::NoMatch; #ifndef QT_NO_STATUSBAR // Only display message if we are, or were, in a partial match if (mainStatusBar && (QKeySequence::PartialMatch == currentState || intermediate.count())) { if (currentState == QKeySequence::PartialMatch) { mainStatusBar->showMessage((QString)partial + QLatin1String(", ...")); } else if (!identicalDisabled) { QString message = TQAccel::tr("%1, %2 not defined"). arg((QString)intermediate). arg(QKeySequence::encodeString(e->key() | translateModifiers(e->state()))); mainStatusBar->showMessage(message, 2000); // Since we're a NoMatch, reset the clash count clash = -1; } else { mainStatusBar->clearMessage(); } } #endif bool eatKey = (QKeySequence::PartialMatch == currentState || intermediate.count()); intermediate = partial; if (eatKey) e->accept(); return eatKey; } else if (n == 0) { // found exactly one match clash = -1; // reset #ifndef QT_NO_STATUSBAR if (currentState == QKeySequence::PartialMatch && mainStatusBar) mainStatusBar->clearMessage(); #endif currentState = QKeySequence::NoMatch; // Free sequence keylock intermediate = QKeySequence(); lastaccel->activate(lastitem); e->accept(); return true; } doclash: // found more than one match #ifndef QT_NO_STATUSBAR if (!mainStatusBar) // if "goto doclash", we need to get status bar again. mainStatusBar = (QStatusBar*) w->window()->child(0, "QStatusBar"); #endif QString message = TQAccel::tr("Ambiguous %1 not handled").arg((QString)tocheck); if (clash >= 0 && n > clash) { // pick next match intermediate = QKeySequence(); currentState = QKeySequence::NoMatch; // Free sequence keylock clash++; #ifndef QT_NO_STATUSBAR if (mainStatusBar && !lastitem->signal && !(lastaccel->parent->tqreceivers(SIGNAL(activatedAmbiguously(int))))) mainStatusBar->showMessage(message, 2000); #endif lastaccel->activateAmbiguously(lastitem); } else { // start (or wrap) with the first matching intermediate = QKeySequence(); currentState = QKeySequence::NoMatch; // Free sequence keylock clash = 0; #ifndef QT_NO_STATUSBAR if (mainStatusBar && !firstitem->signal && !(firstaccel->parent->tqreceivers(SIGNAL(activatedAmbiguously(int))))) mainStatusBar->showMessage(message, 2000); #endif firstaccel->activateAmbiguously(firstitem); } e->accept(); return true; } TQAccelPrivate::TQAccelPrivate(TQAccel* p) : parent(p) { TQAccelManager::self()->registerAccel(this); aitems.setAutoDelete(true); ignorewhatsthis = false; } TQAccelPrivate::~TQAccelPrivate() { TQAccelManager::self()->unregisterAccel(this); } static TQAccelItem *find_id(TQAccelList &list, int id) { register TQAccelItem *item = list.first(); while (item && item->id != id) item = list.next(); return item; } static TQAccelItem *find_key(TQAccelList &list, const QKeySequence &key) { register TQAccelItem *item = list.first(); while (item && !(item->key == key)) item = list.next(); return item; } /*! Constructs a TQAccel object called \a name, with parent \a parent. The accelerator operates on \a parent. */ TQAccel::TQAccel(QWidget *parent, const char *name) : TQT_BASE_OBJECT_NAME(parent, name) { d = new TQAccelPrivate(this); d->enabled = true; d->watch = parent; #if defined(QT_CHECK_NULL) if (!d->watch) qWarning("TQAccel: An accelerator must have a parent or a watch widget"); #endif } /*! Constructs a TQAccel object called \a name, that operates on \a watch, and is a child of \a parent. This constructor is not needed for normal application programming. */ TQAccel::TQAccel(QWidget* watch, TQT_BASE_OBJECT_NAME *parent, const char *name) : TQT_BASE_OBJECT_NAME(parent, name) { d = new TQAccelPrivate(this); d->enabled = true; d->watch = watch; #if defined(QT_CHECK_NULL) if (!d->watch) qWarning("TQAccel: An accelerator must have a parent or a watch widget"); #endif } /*! Destroys the accelerator object and frees all allocated resources. */ TQAccel::~TQAccel() { delete d; } /*! \fn void TQAccel::activated(int id) This signal is emitted when the user types the shortcut's key sequence. \a id is a number that identifies this particular accelerator item. \sa activatedAmbiguously() */ /*! \fn void TQAccel::activatedAmbiguously(int id) This signal is emitted when the user types a shortcut key sequence that is ambiguous. For example, if one key sequence is a "prefix" for another and the user types these keys it isn't clear if they want the shorter key sequence, or if they're about to type more to complete the longer key sequence. \a id is a number that identifies this particular accelerator item. \sa activated() */ /*! Returns true if the accelerator is enabled; otherwise returns false. \sa setEnabled(), isItemEnabled() */ bool TQAccel::isEnabled() const { return d->enabled; } /*! Enables the accelerator if \a enable is true, or disables it if \a enable is false. Individual keys can also be enabled or disabled using setItemEnabled(). To work, a key must be an enabled item in an enabled TQAccel. \sa isEnabled(), setItemEnabled() */ void TQAccel::setEnabled(bool enable) { d->enabled = enable; } /*! Returns the number of accelerator items in this accelerator. */ uint TQAccel::count() const { return d->aitems.count(); } static int get_seq_id() { static int seq_no = -2; // -1 is used as return value in findKey() return seq_no--; } /*! Inserts an accelerator item and returns the item's identifier. \a key is a key code and an optional combination of SHIFT, CTRL and ALT. \a id is the accelerator item id. If \a id is negative, then the item will be assigned a unique negative identifier less than -1. \snippet doc/src/snippets/code/src_qt3support_other_q3accel.cpp 3 */ int TQAccel::insertItem(const QKeySequence& key, int id) { if (id == -1) id = get_seq_id(); d->aitems.insert(0, new TQAccelItem(key,id)); return id; } /*! Removes the accelerator item with the identifier \a id. */ void TQAccel::removeItem(int id) { if (find_id(d->aitems, id)) d->aitems.remove(); } /*! Removes all accelerator items. */ void TQAccel::clear() { d->aitems.clear(); } /*! Returns the key sequence of the accelerator item with identifier \a id, or an invalid key sequence (0) if the id cannot be found. */ QKeySequence TQAccel::key(int id) { TQAccelItem *item = find_id(d->aitems, id); return item ? item->key : QKeySequence(0); } /*! Returns the identifier of the accelerator item with the key code \a key, or -1 if the item cannot be found. */ int TQAccel::findKey(const QKeySequence& key) const { TQAccelItem *item = find_key(d->aitems, key); return item ? item->id : -1; } /*! Returns true if the accelerator item with the identifier \a id is enabled. Returns false if the item is disabled or cannot be found. \sa setItemEnabled(), isEnabled() */ bool TQAccel::isItemEnabled(int id) const { TQAccelItem *item = find_id(d->aitems, id); return item ? item->enabled : false; } /*! Enables the accelerator item with the identifier \a id if \a enable is true, and disables item \a id if \a enable is false. To work, an item must be enabled and be in an enabled TQAccel. \sa isItemEnabled(), isEnabled() */ void TQAccel::setItemEnabled(int id, bool enable) { TQAccelItem *item = find_id(d->aitems, id); if (item) item->enabled = enable; } /*! Connects the accelerator item \a id to the slot \a member of \a receiver. Returns true if the connection is successful. \snippet doc/src/snippets/code/src_qt3support_other_q3accel.cpp 4 Of course, you can also send a signal as \a member. Normally accelerators are connected to Q_SLOTS which then receive the \c activated(int id) signal with the id of the accelerator item that was activated. If you choose to connect a specific accelerator item using this function, the \c activated() signal is emitted if the associated key sequence is pressed but no \c activated(int id) signal is emitted. \sa disconnectItem(), TQT_BASE_OBJECT_NAME::connect() */ bool TQAccel::connectItem(int id, const TQT_BASE_OBJECT_NAME *receiver, const char *member) { TQAccelItem *item = find_id(d->aitems, id); if (item) { if (!item->signal) { item->signal = new TQSignal; Q_CHECK_PTR(item->signal); } return item->signal->connect(receiver, member); } return false; } /*! Disconnects the accelerator item identified by \a id from the function called \a member in the \a receiver object. Returns true if the connection existed and the disconnect was successful. \sa connectItem(), TQT_BASE_OBJECT_NAME::disconnect() */ bool TQAccel::disconnectItem(int id, const TQT_BASE_OBJECT_NAME *receiver, const char *member) { TQAccelItem *item = find_id(d->aitems, id); if (item && item->signal) return item->signal->disconnect(receiver, member); return false; } void TQAccelPrivate::activate(TQAccelItem* item) { #ifndef QT_NO_WHATSTHIS if (QWhatsThis::inWhatsThisMode() && !ignorewhatsthis) { QWhatsThis::showText(QCursor::pos(), item->whatsthis); return; } #endif if (item->signal) item->signal->activate(); else emit parent->activated(item->id); } void TQAccelPrivate::activateAmbiguously(TQAccelItem* item) { if (item->signal) item->signal->activate(); else emit parent->activatedAmbiguously(item->id); } /*! Returns the shortcut key sequence for \a str, or an invalid key sequence (0) if \a str has no shortcut sequence. For example, shortcutKey("E&xit") returns QKeySequence(Qt::ALT + Qt::Key_X), shortcutKey("&Quit") returns QKeySequence(Qt::ALT + Qt::Key_Q), and shortcutKey("Quit") returns QKeySequence(). */ QKeySequence TQAccel::shortcutKey(const QString &str) { if(qt_accel_no_shortcuts) return QKeySequence(); int p = 0; while (p >= 0) { p = str.find(QLatin1Char('&'), p) + 1; if (p <= 0 || p >= (int)str.length()) return 0; if (str[p] != QLatin1Char('&')) { QChar c = str[p]; if (c.isPrint()) { char ltr = c.upper().latin1(); if (ltr >= (char)Key_A && ltr <= (char)Key_Z) c = QLatin1Char(ltr); else c = c.lower(); return QKeySequence(c.tqunicode() + ALT + UNICODE_ACCEL); } } p++; } return QKeySequence(); } /*! \obsolete Creates an accelerator string for the key \a k. For instance CTRL+Key_O gives "Ctrl+O". The "Ctrl" etc. are translated (using TQT_BASE_OBJECT_NAME::tr()) in the "TQAccel" context. The function is superfluous. Cast the QKeySequence \a k to a QString for the same effect. */ QString TQAccel::keyToString(QKeySequence k) { return (QString) k; } /*!\obsolete Returns an accelerator code for the string \a s. For example "Ctrl+O" gives CTRL+UNICODE_ACCEL+'O'. The strings "Ctrl", "Shift", "Alt" are recognized, as well as their translated equivalents in the "TQAccel" context (using TQT_BASE_OBJECT_NAME::tr()). Returns 0 if \a s is not recognized. This function is typically used with \link TQT_BASE_OBJECT_NAME::tr() tr \endlink(), so that accelerator keys can be replaced in translations: \snippet doc/src/snippets/code/src_qt3support_other_q3accel.cpp 5 Notice the "File|Open" translator comment. It is by no means necessary, but it provides some context for the human translator. The function is superfluous. Construct a QKeySequence from the string \a s for the same effect. \sa TQT_BASE_OBJECT_NAME::tr(), {Internationalization with Qt} */ QKeySequence TQAccel::stringToKey(const QString & s) { return QKeySequence(s); } /*! Sets a What's This help text for the accelerator item \a id to \a text. The text will be shown when the application is in What's This mode and the user hits the accelerator key. To set What's This help on a menu item (with or without an accelerator key), use Q3MenuData::setWhatsThis(). \sa whatsThis(), QWhatsThis::inWhatsThisMode(), QAction::setWhatsThis() */ void TQAccel::setWhatsThis(int id, const QString& text) { TQAccelItem *item = find_id(d->aitems, id); if (item) item->whatsthis = text; } /*! Returns the What's This help text for the specified item \a id or an empty string if no text has been specified. \sa setWhatsThis() */ QString TQAccel::whatsThis(int id) const { TQAccelItem *item = find_id(d->aitems, id); return item? item->whatsthis : QString(); } /*!\internal */ void TQAccel::setIgnoreWhatsThis(bool b) { d->ignorewhatsthis = b; } /*!\internal */ bool TQAccel::ignoreWhatsThis() const { return d->ignorewhatsthis; } /*! \fn void TQAccel::repairEventFilter() \internal */ QT_END_NAMESPACE #else // USE_QT4 /**************************************************************************** ** ** Implementation of TQAccel class ** ** Created : 950419 ** ** Copyright (C) 2010 Timothy Pearson and (C) 1992-2008 Trolltech ASA. ** ** This file is part of the kernel module of the TQt GUI Toolkit. ** ** This file may be used under the terms of the GNU General ** Public License versions 2.0 or 3.0 as published by the Free ** Software Foundation and appearing in the files LICENSE.GPL2 ** and LICENSE.GPL3 included in the packaging of this file. ** Alternatively you may (at your option) use any later version ** of the GNU General Public License if such license has been ** publicly approved by Trolltech ASA (or its successors, if any) ** and the KDE Free TQt Foundation. ** ** Please review the following information to ensure GNU General ** Public Licensing requirements will be met: ** http://trolltech.com/products/qt/licenses/licensing/opensource/. ** If you are unsure which license is appropriate for your use, please ** review the following information: ** http://trolltech.com/products/qt/licenses/licensing/licensingoverview ** or contact the sales department at sales@trolltech.com. ** ** This file may be used under the terms of the Q Public License as ** defined by Trolltech ASA and appearing in the file LICENSE.TQPL ** included in the packaging of this file. Licensees holding valid TQt ** Commercial licenses may use this file in accordance with the TQt ** Commercial License Agreement provided with the Software. ** ** This file is provided "AS IS" with NO WARRANTY OF ANY KIND, ** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR ** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted ** herein. ** **********************************************************************/ #include "tqaccel.h" #ifndef TQT_NO_ACCEL #include "tqsignal.h" #include "tqapplication.h" #include "tqwidget.h" #include "tqptrlist.h" #include "tqwhatsthis.h" #include "tqguardedptr.h" #include "tqstatusbar.h" #include "tqdockwindow.h" #include "tqsignalslotimp.h" /*! \class TQAccel tqaccel.h \brief The TQAccel class handles keyboard accelerator and shortcut keys. \ingroup misc A keyboard accelerator triggers an action when a certain key combination is pressed. The accelerator handles all keyboard activity for all the tqchildren of one top-level widget, so it is not affected by the keyboard focus. In most cases, you will not need to use this class directly. Use the TQAction class to create actions with accelerators that can be used in both menus and toolbars. If you're only interested in menus use TQMenuData::insertItem() or TQMenuData::setAccel() to make accelerators for operations that are also available on menus. Many widgets automatically generate accelerators, such as TQButton, TQGroupBox, TQLabel (with TQLabel::setBuddy()), TQMenuBar and TQTabBar. Example: \code TQPushButton p( "&Exit", tqparent ); // automatic shortcut ALT+Key_E TQPopupMenu *fileMenu = new fileMenu( tqparent ); fileMenu->insertItem( "Undo", tqparent, TQT_SLOT(undo()), CTRL+Key_Z ); \endcode A TQAccel contains a list of accelerator items that can be manipulated using insertItem(), removeItem(), clear(), key() and findKey(). Each accelerator item consists of an identifier and a \l TQKeySequence. A single key sequence consists of a keyboard code combined with modifiers (\c SHIFT, \c CTRL, \c ALT or \c UNICODE_ACCEL). For example, \c{CTRL + Key_P} could be a shortcut for printing a document. The key codes are listed in \c tqnamespace.h. As an alternative, use \c UNICODE_ACCEL with the tqunicode code point of the character. For example, \c{UNICODE_ACCEL + 'A'} gives the same accelerator as \c Key_A. When an accelerator key is pressed, the accelerator sends out the signal activated() with a number that identifies this particular accelerator item. Accelerator items can also be individually connected, so that two different keys will activate two different Q_SLOTS (see connectItem() and disconnectItem()). The activated() signal is \e not emitted when two or more accelerators match the same key. Instead, the first matching accelerator sends out the activatedAmbiguously() signal. By pressing the key multiple times, users can navigate between all matching accelerators. Some standard controls like TQPushButton and TQCheckBox connect the activatedAmbiguously() signal to the harmless setFocus() slot, whereas activated() is connected to a slot invoking the button's action. Most controls, like TQLabel and TQTabBar, treat activated() and activatedAmbiguously() as equivalent. Use setEnabled() to enable or disable all the items in an accelerator, or setItemEnabled() to enable or disable individual items. An item is active only when both the TQAccel and the item itself are enabled. The function setWhatsThis() specifies a help text that appears when the user presses an accelerator key in What's This mode. The accelerator will be deleted when \e tqparent is deleted, and will consume relevant key events until then. Please note that the accelerator \code accelerator->insertItem( TQKeySequence("M") ); \endcode can be triggered with both the 'M' key, and with Shift+M, unless a second accelerator is defined for the Shift+M combination. Example: \code TQAccel *a = new TQAccel( myWindow ); // create accels for myWindow a->connectItem( a->insertItem(Key_P+CTRL), // adds Ctrl+P accelerator myWindow, // connected to myWindow's TQT_SLOT(printDoc()) ); // printDoc() slot \endcode \sa TQKeyEvent TQWidget::keyPressEvent() TQMenuData::setAccel() TQButton::setAccel() TQLabel::setBuddy() TQKeySequence \link guibooks.html#fowler GUI Design Handbook: Keyboard Shortcuts \endlink. */ struct TQAccelItem { // internal accelerator item TQAccelItem( const TQKeySequence &k, int i ) { key=k; id=i; enabled=TRUE; signal=0; } ~TQAccelItem() { delete signal; } int id; TQKeySequence key; bool enabled; TQSignal *signal; TQString whatsthis; }; typedef TQPtrList TQAccelList; // internal accelerator list class TQAccelPrivate : public TQt { public: TQAccelPrivate( TQAccel* p ); ~TQAccelPrivate(); TQAccelList aitems; bool enabled; TQGuardedPtr watch; bool ignorewhatsthis; TQAccel* tqparent; void activate( TQAccelItem* item ); void activateAmbiguously( TQAccelItem* item ); }; class TQAccelManager : public TQt { public: static TQAccelManager* self() { return self_ptr ? self_ptr : new TQAccelManager; } void registerAccel( TQAccelPrivate* a ) { accels.append( a ); } void unregisterAccel( TQAccelPrivate* a ) { accels.removeRef( a ); if ( accels.isEmpty() ) delete this; } bool tryAccelEvent( TQWidget* w, TQKeyEvent* e ); bool dispatchAccelEvent( TQWidget* w, TQKeyEvent* e ); bool tryComposeUnicode( TQWidget* w, TQKeyEvent* e ); private: TQAccelManager():currentState(TQt::NoMatch), clash(-1) { self_ptr = this; } ~TQAccelManager() { self_ptr = 0; } bool correctSubWindow( TQWidget *w, TQAccelPrivate* d ); SequenceMatch match( TQKeyEvent* e, TQAccelItem* item, TQKeySequence& temp ); int translateModifiers( ButtonState state ); TQPtrList accels; static TQAccelManager* self_ptr; TQt::SequenceMatch currentState; TQKeySequence intermediate; int clash; }; TQAccelManager* TQAccelManager::self_ptr = 0; bool TQ_EXPORT qt_tryAccelEvent( TQWidget* w, TQKeyEvent* e){ return TQAccelManager::self()->tryAccelEvent( w, e ); } bool TQ_EXPORT qt_dispatchAccelEvent( TQWidget* w, TQKeyEvent* e){ return TQAccelManager::self()->dispatchAccelEvent( w, e ); } bool TQ_EXPORT qt_tryComposeUnicode( TQWidget* w, TQKeyEvent* e){ return TQAccelManager::self()->tryComposeUnicode( w, e ); } #ifdef TQ_WS_MAC static bool qt_accel_no_shortcuts = TRUE; #else static bool qt_accel_no_shortcuts = FALSE; #endif void TQ_EXPORT qt_setAccelAutoShortcuts(bool b) { qt_accel_no_shortcuts = b; } /* \internal Returns TRUE if the accel is in the current subwindow, else FALSE. */ bool TQAccelManager::correctSubWindow( TQWidget* w, TQAccelPrivate* d ) { #if !defined ( TQ_OS_MACX ) if ( !d->watch || !d->watch->isVisible() || !d->watch->isEnabled() ) #else if ( !d->watch || (!d->watch->isVisible() && !d->watch->inherits( "TQMenuBar" )) || !d->watch->isEnabled() ) #endif return FALSE; TQWidget* tlw = w->tqtopLevelWidget(); TQWidget* wtlw = d->watch->tqtopLevelWidget(); /* if we live in a floating dock window, keep our tqparent's * accelerators working */ #ifndef TQT_NO_MAINWINDOW if ( tlw->isDialog() && tlw->parentWidget() && ::tqqt_cast(tlw) ) // [FIXME] Can I safely use the TQT_TQOBJECT macro here? return tlw->parentWidget()->tqtopLevelWidget() == wtlw; if ( wtlw != tlw ) return FALSE; #endif /* if we live in a MDI subwindow, ignore the event if we are not the active document window */ TQWidget* sw = d->watch; while ( sw && !sw->testWFlags( WSubWindow ) ) sw = sw->parentWidget( TRUE ); if ( sw ) { // we are in a subwindow indeed TQWidget* fw = w; while ( fw && fw != sw ) fw = fw->parentWidget( TRUE ); if ( fw != sw ) // focus widget not in our subwindow return FALSE; } return TRUE; } inline int TQAccelManager::translateModifiers( ButtonState state ) { int result = 0; if ( state & ShiftButton ) result |= SHIFT; if ( state & ControlButton ) result |= CTRL; if ( state & MetaButton ) result |= META; if ( state & AltButton ) result |= ALT; return result; } /* \internal Matches the current intermediate key sequence + the latest keyevent, with and AccelItem. Returns Identical, PartialMatch or NoMatch, and fills \a temp with the resulting key sequence. */ TQt::SequenceMatch TQAccelManager::match( TQKeyEvent *e, TQAccelItem* item, TQKeySequence& temp ) { SequenceMatch result = TQt::NoMatch; int index = intermediate.count(); temp = intermediate; int modifier = translateModifiers( e->state() ); if ( e->key() && e->key() != Key_unknown) { int key = e->key() | modifier; if ( e->key() == Key_BackTab ) { /* In TQApplication, we map shift+tab to shift+backtab. This code here reverts the mapping in a way that keeps backtab and shift+tab accelerators working, in that order, meaning backtab has priority.*/ key &= ~SHIFT; temp.setKey( key, index ); if ( TQt::NoMatch != (result = temp.matches( item->key )) ) return result; if ( e->state() & ShiftButton ) key |= SHIFT; key = Key_Tab | ( key & MODIFIER_MASK ); temp.setKey( key, index ); if ( TQt::NoMatch != (result = temp.matches( item->key )) ) return result; } else { temp.setKey( key, index ); if ( TQt::NoMatch != (result = temp.matches( item->key )) ) return result; } if ( key == Key_BackTab ) { if ( e->state() & ShiftButton ) key |= SHIFT; temp.setKey( key, index ); if ( TQt::NoMatch != (result = temp.matches( item->key )) ) return result; } } if ( !e->text().isEmpty() ) { temp.setKey( (int)e->text()[0].unicode() | UNICODE_ACCEL | modifier, index ); result = temp.matches( item->key ); } return result; } bool TQAccelManager::tryAccelEvent( TQWidget* w, TQKeyEvent* e ) { if ( TQt::NoMatch == currentState ) { e->t = TQEvent::AccelOverride; e->ignore(); TQAccel::sendSpontaneousKeyEvent( TQT_TQOBJECT(w), e ); if ( e->isAccepted() ) return FALSE; } e->t = TQEvent::Accel; e->ignore(); TQAccel::sendSpontaneousKeyEvent( TQT_TQOBJECT(w), e ); return e->isAccepted(); } bool TQAccelManager::tryComposeUnicode( TQWidget* w, TQKeyEvent* e ) { if ( TQApplication::metaComposeUnicode ) { int value = e->key() - Key_0; // Ignore acceloverrides so we don't trigger // accels on keypad when Meta compose is on if ( (e->type() == TQEvent::AccelOverride) && (e->state() == TQt::Keypad + TQt::MetaButton) ) { e->accept(); // Meta compose start/continue } else if ( (e->type() == TQEvent::KeyPress) && (e->state() == TQt::Keypad + TQt::MetaButton) ) { if ( value >= 0 && value <= 9 ) { TQApplication::composedUnicode *= 10; TQApplication::composedUnicode += value; return TRUE; } else { // Composing interrupted, dispatch! if ( TQApplication::composedUnicode ) { TQChar ch( TQApplication::composedUnicode ); TQString s( ch ); TQKeyEvent kep( TQEvent::KeyPress, 0, ch.row() ? 0 : ch.cell(), 0, s ); TQKeyEvent ker( TQEvent::KeyRelease, 0, ch.row() ? 0 : ch.cell(), 0, s ); TQApplication::sendEvent( w, &kep ); TQApplication::sendEvent( w, &ker ); } TQApplication::composedUnicode = 0; return TRUE; } // Meta compose end, dispatch } else if ( (e->type() == TQEvent::KeyRelease) && (e->key() == Key_Meta) && (TQApplication::composedUnicode != 0) ) { if ( (TQApplication::composedUnicode > 0) && (TQApplication::composedUnicode < 0xFFFE) ) { TQChar ch( TQApplication::composedUnicode ); TQString s( ch ); TQKeyEvent kep( TQEvent::KeyPress, 0, ch.row() ? 0 : ch.cell(), 0, s ); TQKeyEvent ker( TQEvent::KeyRelease, 0, ch.row() ? 0 : ch.cell(), 0, s ); TQApplication::sendEvent( w, &kep ); TQApplication::sendEvent( w, &ker ); } TQApplication::composedUnicode = 0; return TRUE; } } return FALSE; } /* \internal Checks for possible accelerators, if no widget ate the keypres, or we are in the middle of a partial key sequence. */ bool TQAccelManager::dispatchAccelEvent( TQWidget* w, TQKeyEvent* e ) { #ifndef TQT_NO_STATUSBAR // Needs to be declared and used here because of "goto doclash" TQStatusBar* maintqStatusBar = 0; #endif // Modifiers can NOT be accelerators... if ( e->key() >= Key_Shift && e->key() <= Key_Alt ) return FALSE; SequenceMatch result = TQt::NoMatch; TQKeySequence tocheck, partial; TQAccelPrivate* accel = 0; TQAccelItem* item = 0; TQAccelPrivate* firstaccel = 0; TQAccelItem* firstitem = 0; TQAccelPrivate* lastaccel = 0; TQAccelItem* lastitem = 0; TQKeyEvent pe = *e; int n = -1; int hasShift = (e->state()&ShiftButton)?1:0; bool identicalDisabled = FALSE; bool matchFound = FALSE; do { accel = accels.first(); matchFound = FALSE; while ( accel ) { if ( correctSubWindow( w, accel ) ) { if ( accel->enabled ) { item = accel->aitems.last(); while( item ) { if ( TQt::Identical == (result = match( &pe, item, tocheck )) ) { if ( item->enabled ) { if ( !firstaccel ) { firstaccel = accel; firstitem = item; } lastaccel = accel; lastitem = item; n++; matchFound = TRUE; if ( n > TQMAX(clash,0) ) goto doclash; } else { identicalDisabled = TRUE; } } if ( item->enabled && TQt::PartialMatch == result ) { partial = tocheck; matchFound = TRUE; } item = accel->aitems.prev(); } } else { item = accel->aitems.last(); while( item ) { if ( TQt::Identical == match( &pe, item, tocheck ) ) identicalDisabled = TRUE; item = accel->aitems.prev(); } } } accel = accels.next(); } pe = TQKeyEvent( TQEvent::Accel, pe.key(), pe.ascii(), pe.state()&~ShiftButton, pe.text() ); } while ( hasShift-- && !matchFound && !identicalDisabled ); #ifndef TQT_NO_STATUSBAR maintqStatusBar = (TQStatusBar*) w->tqtopLevelWidget()->child( 0, "TQStatusBar" ); #endif if ( n < 0 ) { // no match found currentState = partial.count() ? PartialMatch : NoMatch; #ifndef TQT_NO_STATUSBAR // Only display message if we are, or were, in a partial match if ( maintqStatusBar && (PartialMatch == currentState || intermediate.count() ) ) { if ( currentState == TQt::PartialMatch ) { maintqStatusBar->message( (TQString)partial + ", ...", 0 ); } else if (!identicalDisabled) { TQString message = TQAccel::tr("%1, %2 not defined"). arg( (TQString)intermediate ). arg( TQKeySequence::encodeString( e->key() | translateModifiers(e->state()) ) ); maintqStatusBar->message( message, 2000 ); // Since we're a NoMatch, reset the clash count clash = -1; } else { maintqStatusBar->clear(); } } #endif bool eatKey = (PartialMatch == currentState || intermediate.count() ); intermediate = partial; if ( eatKey ) e->accept(); return eatKey; } else if ( n == 0 ) { // found exactly one match clash = -1; // reset #ifndef TQT_NO_STATUSBAR if ( currentState == TQt::PartialMatch && maintqStatusBar ) maintqStatusBar->clear(); #endif currentState = TQt::NoMatch; // Free sequence keylock intermediate = TQKeySequence(); lastaccel->activate( lastitem ); e->accept(); return TRUE; } doclash: // found more than one match #ifndef TQT_NO_STATUSBAR if ( !maintqStatusBar ) // if "goto doclash", we need to get statusbar again. maintqStatusBar = (TQStatusBar*) w->tqtopLevelWidget()->child( 0, "TQStatusBar" ); #endif TQString message = TQAccel::tr( "Ambiguous \"%1\" not handled" ).arg( (TQString)tocheck ); if ( clash >= 0 && n > clash ) { // pick next match intermediate = TQKeySequence(); currentState = TQt::NoMatch; // Free sequence keylock clash++; #ifndef TQT_NO_STATUSBAR if ( maintqStatusBar && !lastitem->signal && !(lastaccel->tqparent->tqreceivers( "activatedAmbiguously(int)" )) ) maintqStatusBar->message( message, 2000 ); #endif lastaccel->activateAmbiguously( lastitem ); } else { // start (or wrap) with the first matching intermediate = TQKeySequence(); currentState = TQt::NoMatch; // Free sequence keylock clash = 0; #ifndef TQT_NO_STATUSBAR if ( maintqStatusBar && !firstitem->signal && !(firstaccel->tqparent->tqreceivers( "activatedAmbiguously(int)" )) ) maintqStatusBar->message( message, 2000 ); #endif firstaccel->activateAmbiguously( firstitem ); } e->accept(); return TRUE; } TQAccelPrivate::TQAccelPrivate( TQAccel* p ) : tqparent( p ) { TQAccelManager::self()->registerAccel( this ); aitems.setAutoDelete( TRUE ); ignorewhatsthis = FALSE; } TQAccelPrivate::~TQAccelPrivate() { TQAccelManager::self()->unregisterAccel( this ); } static TQAccelItem *find_id( TQAccelList &list, int id ) { register TQAccelItem *item = list.first(); while ( item && item->id != id ) item = list.next(); return item; } static TQAccelItem *find_key( TQAccelList &list, const TQKeySequence &key ) { register TQAccelItem *item = list.first(); while ( item && !( item->key == key ) ) item = list.next(); return item; } /*! Constructs a TQAccel object called \a name, with tqparent \a tqparent. The accelerator operates on \a tqparent. */ TQAccel::TQAccel( TQWidget *tqparent, const char *name ) : TQObject( TQT_TQOBJECT(tqparent), name ) { d = new TQAccelPrivate( this ); d->enabled = TRUE; d->watch = tqparent; #if defined(TQT_CHECK_NULL) if ( !d->watch ) qWarning( "TQAccel: An accelerator must have a tqparent or a watch widget" ); #endif } /*! Constructs a TQAccel object called \a name, that operates on \a watch, and is a child of \a tqparent. This constructor is not needed for normal application programming. */ TQAccel::TQAccel( TQWidget* watch, TQObject *tqparent, const char *name ) : TQObject( tqparent, name ) { d = new TQAccelPrivate( this ); d->enabled = TRUE; d->watch = watch; #if defined(TQT_CHECK_NULL) if ( !d->watch ) qWarning( "TQAccel: An accelerator must have a tqparent or a watch widget" ); #endif } /*! Constructs a TQAccel object called \a name, that operates on \a watch, and is a child of \a tqparent. This constructor is not needed for normal application programming. */ TQAccel::TQAccel( TQWidget* watch, TQWidget *tqparent, const char *name ) : TQObject( TQT_TQOBJECT(tqparent), name ) { d = new TQAccelPrivate( this ); d->enabled = TRUE; d->watch = watch; #if defined(TQT_CHECK_NULL) if ( !d->watch ) qWarning( "TQAccel: An accelerator must have a tqparent or a watch widget" ); #endif } /*! Destroys the accelerator object and frees all allocated resources. */ TQAccel::~TQAccel() { delete d; } /*! \fn void TQAccel::activated( int id ) This signal is emitted when an accelerator key is pressed. \a id is a number that identifies this particular accelerator item. \sa activatedAmbiguously() */ /*! \fn void TQAccel::activatedAmbiguously( int id ) This signal is emitted when an accelerator key is pressed. \a id is a number that identifies this particular accelerator item. \sa activated() */ /*! Returns TRUE if the accelerator is enabled; otherwise returns FALSE. \sa setEnabled(), isItemEnabled() */ bool TQAccel::isEnabled() const { return d->enabled; } /*! Enables the accelerator if \a enable is TRUE, or disables it if \a enable is FALSE. Individual keys can also be enabled or disabled using setItemEnabled(). To work, a key must be an enabled item in an enabled TQAccel. \sa isEnabled(), setItemEnabled() */ void TQAccel::setEnabled( bool enable ) { d->enabled = enable; } /*! Returns the number of accelerator items in this accelerator. */ uint TQAccel::count() const { return d->aitems.count(); } static int get_seq_id() { static int seq_no = -2; // -1 is used as return value in findKey() return seq_no--; } /*! Inserts an accelerator item and returns the item's identifier. \a key is a key code and an optional combination of SHIFT, CTRL and ALT. \a id is the accelerator item id. If \a id is negative, then the item will be assigned a unique negative identifier less than -1. \code TQAccel *a = new TQAccel( myWindow ); // create accels for myWindow a->insertItem( CTRL + Key_P, 200 ); // Ctrl+P, e.g. to print document a->insertItem( ALT + Key_X, 201 ); // Alt+X, e.g. to quit a->insertItem( UNICODE_ACCEL + 'q', 202 ); // Unicode 'q', e.g. to quit a->insertItem( Key_D ); // gets a unique negative id < -1 a->insertItem( CTRL + SHIFT + Key_P ); // gets a unique negative id < -1 \endcode */ int TQAccel::insertItem( const TQKeySequence& key, int id ) { if ( id == -1 ) id = get_seq_id(); d->aitems.insert( 0, new TQAccelItem(key,id) ); return id; } /*! Removes the accelerator item with the identifier \a id. */ void TQAccel::removeItem( int id ) { if ( find_id( d->aitems, id) ) d->aitems.remove(); } /*! Removes all accelerator items. */ void TQAccel::clear() { d->aitems.clear(); } /*! Returns the key sequence of the accelerator item with identifier \a id, or an invalid key sequence (0) if the id cannot be found. */ TQKeySequence TQAccel::key( int id ) { TQAccelItem *item = find_id( d->aitems, id); return item ? item->key : TQKeySequence( 0 ); } /*! Returns the identifier of the accelerator item with the key code \a key, or -1 if the item cannot be found. */ int TQAccel::findKey( const TQKeySequence& key ) const { TQAccelItem *item = find_key( d->aitems, key ); return item ? item->id : -1; } /*! Returns TRUE if the accelerator item with the identifier \a id is enabled. Returns FALSE if the item is disabled or cannot be found. \sa setItemEnabled(), isEnabled() */ bool TQAccel::isItemEnabled( int id ) const { TQAccelItem *item = find_id( d->aitems, id); return item ? item->enabled : FALSE; } /*! Enables the accelerator item with the identifier \a id if \a enable is TRUE, and disables item \a id if \a enable is FALSE. To work, an item must be enabled and be in an enabled TQAccel. \sa isItemEnabled(), isEnabled() */ void TQAccel::setItemEnabled( int id, bool enable ) { TQAccelItem *item = find_id( d->aitems, id); if ( item ) item->enabled = enable; } /*! Connects the accelerator item \a id to the slot \a member of \a receiver. \code a->connectItem( 201, mainView, TQT_SLOT(quit()) ); \endcode Of course, you can also send a signal as \a member. Normally accelerators are connected to Q_SLOTS which then receive the \c activated(int id) signal with the id of the accelerator item that was activated. If you choose to connect a specific accelerator item using this function, the \c activated() signal is emitted if the associated key sequence is pressed but no \c activated(int id) signal is emitted. \sa disconnectItem() */ bool TQAccel::connectItem( int id, const TQT_BASE_OBJECT_NAME *receiver, const char *member ) { TQAccelItem *item = find_id( d->aitems, id); if ( item ) { if ( !item->signal ) { item->signal = new TQSignal; TQ_CHECK_PTR( item->signal ); } return item->signal->connect( receiver, member ); } return FALSE; } /*! Disconnects an accelerator item with id \a id from the function called \a member in the \a receiver object. \sa connectItem() */ bool TQAccel::disconnectItem( int id, const TQT_BASE_OBJECT_NAME *receiver, const char *member ) { TQAccelItem *item = find_id( d->aitems, id); if ( item && item->signal ) return item->signal->disconnect( receiver, member ); return FALSE; } void TQAccelPrivate::activate( TQAccelItem* item ) { #ifndef TQT_NO_WHATSTHIS if ( TQWhatsThis::inWhatsThisMode() && !ignorewhatsthis ) { TQWhatsThis::leaveWhatsThisMode( item->whatsthis ); return; } #endif if ( item->signal ) item->signal->activate(); else emit tqparent->activated( item->id ); } void TQAccelPrivate::activateAmbiguously( TQAccelItem* item ) { if ( item->signal ) item->signal->activate(); else emit tqparent->activatedAmbiguously( item->id ); } /*! Returns the shortcut key sequence for \a str, or an invalid key sequence (0) if \a str has no shortcut sequence. For example, shortcutKey("E&xit") returns ALT+Key_X, shortcutKey("&Quit") returns ALT+Key_Q and shortcutKey("Quit") returns 0. (In code that does not inherit the TQt namespace class, you must write e.g. TQt::ALT+TQt::Key_Q.) We provide a \link accelerators.html list of common accelerators \endlink in English. At the time of writing, Microsoft and Open Group do not appear to have issued equivalent recommendations for other languages. */ TQKeySequence TQAccel::shortcutKey( const TQString &str ) { if(qt_accel_no_shortcuts) return TQKeySequence(); int p = 0; while ( p >= 0 ) { p = str.find( '&', p ) + 1; if ( p <= 0 || p >= (int)str.length() ) return 0; if ( str[p] != '&' ) { TQChar c = str[p]; if ( c.isPrint() ) { char ltr = c.upper().latin1(); if ( ltr >= (char)Qt::Key_A && ltr <= (char)Qt::Key_Z ) c = ltr; else c = c.lower(); return TQKeySequence( c.tqunicode() + Qt::ALT + Qt::UNICODE_ACCEL ); } } p++; } return TQKeySequence(); } /*! \obsolete Creates an accelerator string for the key \a k. For instance CTRL+Key_O gives "Ctrl+O". The "Ctrl" etc. are translated (using TQObject::tr()) in the "TQAccel" context. The function is superfluous. Cast the TQKeySequence \a k to a TQString for the same effect. */ TQString TQAccel::keyToString( TQKeySequence k ) { return (TQString) k; } /*!\obsolete Returns an accelerator code for the string \a s. For example "Ctrl+O" gives CTRL+UNICODE_ACCEL+'O'. The strings "Ctrl", "Shift", "Alt" are recognized, as well as their translated equivalents in the "TQAccel" context (using TQObject::tr()). Returns 0 if \a s is not recognized. This function is typically used with \link TQObject::tr() tr \endlink(), so that accelerator keys can be replaced in translations: \code TQPopupMenu *file = new TQPopupMenu( this ); file->insertItem( p1, tr("&Open..."), this, TQT_SLOT(open()), TQAccel::stringToKey(tr("Ctrl+O", "File|Open")) ); \endcode Notice the \c "File|Open" translator comment. It is by no means necessary, but it provides some context for the human translator. The function is superfluous. Construct a TQKeySequence from the string \a s for the same effect. \sa TQObject::tr() \link i18n.html Internationalization with TQt \endlink */ TQKeySequence TQAccel::stringToKey( const TQString & s ) { return TQKeySequence( s ); } /*! Sets a What's This help text for the accelerator item \a id to \a text. The text will be shown when the application is in What's This mode and the user hits the accelerator key. To set What's This help on a menu item (with or without an accelerator key), use TQMenuData::setWhatsThis(). \sa whatsThis(), TQWhatsThis::inWhatsThisMode(), TQMenuData::setWhatsThis(), TQAction::setWhatsThis() */ void TQAccel::setWhatsThis( int id, const TQString& text ) { TQAccelItem *item = find_id( d->aitems, id); if ( item ) item->whatsthis = text; } /*! Returns the What's This help text for the specified item \a id or TQString::null if no text has been specified. \sa setWhatsThis() */ TQString TQAccel::whatsThis( int id ) const { TQAccelItem *item = find_id( d->aitems, id); return item? item->whatsthis : TQString::null; } /*!\internal */ void TQAccel::setIgnoreWhatsThis( bool b) { d->ignorewhatsthis = b; } /*!\internal */ bool TQAccel::ignoreWhatsThis() const { return d->ignorewhatsthis; } /*! \page accelerators.html \title Standard Accelerator Keys Applications invariably need to define accelerator keys for actions. TQt fully supports accelerators, for example with \l TQAccel::shortcutKey(). Here are Microsoft's recommendations for accelerator keys, with comments about the Open Group's recommendations where they exist and differ. For most commands, the Open Group either has no advice or agrees with Microsoft. The emboldened letter plus Alt is Microsoft's recommended choice, and we recommend supporting it. For an Apply button, for example, we recommend TQButton::setText( \link TQWidget::tr() tr \endlink("&Apply") ); If you have conflicting commands (e.g. About and Apply buttons in the same dialog), you must decide for yourself. \list \i About \i Always on Top \i Apply \i Back \i Browse \i Close (CDE: Alt+F4; Alt+F4 is "close window" in Windows) \i Copy (CDE: Ctrl+C, Ctrl+Insert) \i Copy Here \i Create Shortcut \i Create Shortcut Here \i Cut \i Delete \i Edit \i Exit (CDE: Exit) \i Explore \i File \i Find \i Help \i Help Topics \i Hide \i Insert \i Insert Object \i Link Here \i Maximize \i Minimize \i Move \i Move Here \i New \i Next \i No \i Open \i Open With \i Page Setup \i Paste \i Paste Link \i Paste Shortcut \i Paste Special \i Pause \i Play \i Print \i Print Here \i Properties \i Quick View \i Redo (CDE: Ctrl+Y, Shift+Alt+Backspace) \i Repeat \i Restore \i Resume \i Retry \i Run \i Save \i Save As \i Select All \i Send To \i Show \i Size \i Split \i Stop \i Undo (CDE: Ctrl+Z or Alt+Backspace) \i View \i What's This? \i Window \i Yes \endlist There are also a lot of other keys and actions (that use other modifier keys than Alt). See the Microsoft and The Open Group documentation for details. The \link http://www.amazon.com/exec/obidos/ASIN/0735605661/trolltech/t Microsoft book \endlink has ISBN 0735605661. The corresponding Open Group book is very hard to find, rather expensive and we cannot recommend it. However, if you really want it, OGPubs@opengroup.org might be able to help. Ask them for ISBN 1859121047. */ /*! \obsolete serves no purpose anymore */ void TQAccel::repairEventFilter() {} /*! \obsolete serves no purpose anymore */ bool TQAccel::eventFilter( TQObject *, TQEvent * ) { return FALSE; } #endif // TQT_NO_ACCEL #endif // USE_QT4