/**************************************************************************** ** ** Implementation of TQKeySequence class ** ** Created : 0108007 ** ** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved. ** ** 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 "ntqkeysequence.h" #ifndef TQT_NO_ACCEL #include "ntqaccel.h" #include "ntqshared.h" #include "tqvaluelist.h" #ifndef TQT_NO_REGEXP # include "ntqregexp.h" #endif #ifdef TQ_WS_MAC #define TQMAC_CTRL (TQString(TQChar(0x2318))) #define TQMAC_META (TQString(TQChar(0x2303))) #define TQMAC_ALT (TQString(TQChar(0x2325))) #define TQMAC_SHIFT (TQString(TQChar(0x21E7))) #endif /*! \class TQKeySequence ntqkeysequence.h \brief The TQKeySequence class encapsulates a key sequence as used by accelerators. \ingroup misc A key sequence consists of up to four keyboard codes, each optionally combined with modifiers, e.g. \c SHIFT, \c CTRL, \c ALT, \c META, or \c UNICODE_ACCEL. For example, \c{CTRL + Key_P} might be a sequence used as a shortcut for printing a document. The key codes are listed in \c{ntqnamespace.h}. As an alternative, use \c UNICODE_ACCEL with the unicode code point of the character. For example, \c{UNICODE_ACCEL + 'A'} gives the same key sequence as \c Key_A. Key sequences can be constructed either from an integer key code, or from a human readable translatable string such as "Ctrl+X,Alt+Space". A key sequence can be cast to a TQString to obtain a human readable translated version of the sequence. Translations are done in the "TQAccel" context. \sa TQAccel */ /*! \enum TQt::SequenceMatch \value NoMatch Sequences have nothing in common \value PartialMatch Sequences match partially, but are not complete \value Identical Sequences do not differ */ static struct { int key; const char* name; } keyname[] = { { TQt::Key_Space, TQT_TRANSLATE_NOOP( "TQAccel", "Space" ) }, { TQt::Key_Escape, TQT_TRANSLATE_NOOP( "TQAccel", "Esc" ) }, { TQt::Key_Tab, TQT_TRANSLATE_NOOP( "TQAccel", "Tab" ) }, { TQt::Key_Backtab, TQT_TRANSLATE_NOOP( "TQAccel", "Backtab" ) }, { TQt::Key_Backspace, TQT_TRANSLATE_NOOP( "TQAccel", "Backspace" ) }, { TQt::Key_Return, TQT_TRANSLATE_NOOP( "TQAccel", "Return" ) }, { TQt::Key_Enter, TQT_TRANSLATE_NOOP( "TQAccel", "Enter" ) }, { TQt::Key_Insert, TQT_TRANSLATE_NOOP( "TQAccel", "Ins" ) }, { TQt::Key_Delete, TQT_TRANSLATE_NOOP( "TQAccel", "Del" ) }, { TQt::Key_Pause, TQT_TRANSLATE_NOOP( "TQAccel", "Pause" ) }, { TQt::Key_Print, TQT_TRANSLATE_NOOP( "TQAccel", "Print" ) }, { TQt::Key_SysReq, TQT_TRANSLATE_NOOP( "TQAccel", "SysReq" ) }, { TQt::Key_Home, TQT_TRANSLATE_NOOP( "TQAccel", "Home" ) }, { TQt::Key_End, TQT_TRANSLATE_NOOP( "TQAccel", "End" ) }, { TQt::Key_Left, TQT_TRANSLATE_NOOP( "TQAccel", "Left" ) }, { TQt::Key_Up, TQT_TRANSLATE_NOOP( "TQAccel", "Up" ) }, { TQt::Key_Right, TQT_TRANSLATE_NOOP( "TQAccel", "Right" ) }, { TQt::Key_Down, TQT_TRANSLATE_NOOP( "TQAccel", "Down" ) }, { TQt::Key_Prior, TQT_TRANSLATE_NOOP( "TQAccel", "PgUp" ) }, { TQt::Key_Next, TQT_TRANSLATE_NOOP( "TQAccel", "PgDown" ) }, { TQt::Key_CapsLock, TQT_TRANSLATE_NOOP( "TQAccel", "CapsLock" ) }, { TQt::Key_NumLock, TQT_TRANSLATE_NOOP( "TQAccel", "NumLock" ) }, { TQt::Key_ScrollLock, TQT_TRANSLATE_NOOP( "TQAccel", "ScrollLock" ) }, { TQt::Key_Menu, TQT_TRANSLATE_NOOP( "TQAccel", "Menu" ) }, { TQt::Key_Help, TQT_TRANSLATE_NOOP( "TQAccel", "Help" ) }, // Multimedia keys { TQt::Key_Back, TQT_TRANSLATE_NOOP( "TQAccel", "Back" ) }, { TQt::Key_Forward, TQT_TRANSLATE_NOOP( "TQAccel", "Forward" ) }, { TQt::Key_Stop, TQT_TRANSLATE_NOOP( "TQAccel", "Stop" ) }, { TQt::Key_Refresh, TQT_TRANSLATE_NOOP( "TQAccel", "Refresh" ) }, { TQt::Key_VolumeDown, TQT_TRANSLATE_NOOP( "TQAccel", "Volume Down" ) }, { TQt::Key_VolumeMute, TQT_TRANSLATE_NOOP( "TQAccel", "Volume Mute" ) }, { TQt::Key_VolumeUp, TQT_TRANSLATE_NOOP( "TQAccel", "Volume Up" ) }, { TQt::Key_BassBoost, TQT_TRANSLATE_NOOP( "TQAccel", "Bass Boost" ) }, { TQt::Key_BassUp, TQT_TRANSLATE_NOOP( "TQAccel", "Bass Up" ) }, { TQt::Key_BassDown, TQT_TRANSLATE_NOOP( "TQAccel", "Bass Down" ) }, { TQt::Key_TrebleUp, TQT_TRANSLATE_NOOP( "TQAccel", "Treble Up" ) }, { TQt::Key_TrebleDown, TQT_TRANSLATE_NOOP( "TQAccel", "Treble Down" ) }, { TQt::Key_MediaPlay, TQT_TRANSLATE_NOOP( "TQAccel", "Media Play" ) }, { TQt::Key_MediaStop, TQT_TRANSLATE_NOOP( "TQAccel", "Media Stop" ) }, { TQt::Key_MediaPrev, TQT_TRANSLATE_NOOP( "TQAccel", "Media Previous" ) }, { TQt::Key_MediaNext, TQT_TRANSLATE_NOOP( "TQAccel", "Media Next" ) }, { TQt::Key_MediaRecord, TQT_TRANSLATE_NOOP( "TQAccel", "Media Record" ) }, { TQt::Key_HomePage, TQT_TRANSLATE_NOOP( "TQAccel", "Home" ) }, { TQt::Key_Favorites, TQT_TRANSLATE_NOOP( "TQAccel", "Favorites" ) }, { TQt::Key_Search, TQT_TRANSLATE_NOOP( "TQAccel", "Search" ) }, { TQt::Key_Standby, TQT_TRANSLATE_NOOP( "TQAccel", "Standby" ) }, { TQt::Key_OpenUrl, TQT_TRANSLATE_NOOP( "TQAccel", "Open URL" ) }, { TQt::Key_LaunchMail, TQT_TRANSLATE_NOOP( "TQAccel", "Launch Mail" ) }, { TQt::Key_LaunchMedia, TQT_TRANSLATE_NOOP( "TQAccel", "Launch Media" ) }, { TQt::Key_Launch0, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (0)" ) }, { TQt::Key_Launch1, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (1)" ) }, { TQt::Key_Launch2, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (2)" ) }, { TQt::Key_Launch3, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (3)" ) }, { TQt::Key_Launch4, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (4)" ) }, { TQt::Key_Launch5, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (5)" ) }, { TQt::Key_Launch6, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (6)" ) }, { TQt::Key_Launch7, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (7)" ) }, { TQt::Key_Launch8, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (8)" ) }, { TQt::Key_Launch9, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (9)" ) }, { TQt::Key_LaunchA, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (A)" ) }, { TQt::Key_LaunchB, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (B)" ) }, { TQt::Key_LaunchC, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (C)" ) }, { TQt::Key_LaunchD, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (D)" ) }, { TQt::Key_LaunchE, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (E)" ) }, { TQt::Key_LaunchF, TQT_TRANSLATE_NOOP( "TQAccel", "Launch (F)" ) }, { TQt::Key_MonBrightnessUp, TQT_TRANSLATE_NOOP( "TQAccel", "Monitor Brightness Up" ) }, { TQt::Key_MonBrightnessDown, TQT_TRANSLATE_NOOP( "TQAccel", "Monitor Brightness Down" ) }, { TQt::Key_KeyboardLightOnOff, TQT_TRANSLATE_NOOP( "TQAccel", "Keyboard Light On Off" ) }, { TQt::Key_KeyboardBrightnessUp, TQT_TRANSLATE_NOOP( "TQAccel", "Keyboard Brightness Up" ) }, { TQt::Key_KeyboardBrightnessDown, TQT_TRANSLATE_NOOP( "TQAccel", "Keyboard Brightness Down" ) }, // -------------------------------------------------------------- // More consistent namings { TQt::Key_Print, TQT_TRANSLATE_NOOP( "TQAccel", "Print Screen" ) }, { TQt::Key_Prior, TQT_TRANSLATE_NOOP( "TQAccel", "Page Up" ) }, { TQt::Key_Next, TQT_TRANSLATE_NOOP( "TQAccel", "Page Down" ) }, { TQt::Key_CapsLock, TQT_TRANSLATE_NOOP( "TQAccel", "Caps Lock" ) }, { TQt::Key_NumLock, TQT_TRANSLATE_NOOP( "TQAccel", "Num Lock" ) }, { TQt::Key_NumLock, TQT_TRANSLATE_NOOP( "TQAccel", "Number Lock" ) }, { TQt::Key_ScrollLock, TQT_TRANSLATE_NOOP( "TQAccel", "Scroll Lock" ) }, { TQt::Key_Insert, TQT_TRANSLATE_NOOP( "TQAccel", "Insert" ) }, { TQt::Key_Delete, TQT_TRANSLATE_NOOP( "TQAccel", "Delete" ) }, { TQt::Key_Escape, TQT_TRANSLATE_NOOP( "TQAccel", "Escape" ) }, { TQt::Key_SysReq, TQT_TRANSLATE_NOOP( "TQAccel", "System Request" ) }, { 0, 0 } }; class TQKeySequencePrivate : public TQShared { public: inline TQKeySequencePrivate() { key[0] = key[1] = key[2] = key[3] = 0; } inline TQKeySequencePrivate( TQKeySequencePrivate *copy ) { key[0] = copy->key[0]; key[1] = copy->key[1]; key[2] = copy->key[2]; key[3] = copy->key[3]; } int key[4]; }; /*! Constructs an empty key sequence. */ TQKeySequence::TQKeySequence() { d = new TQKeySequencePrivate(); TQ_CHECK_PTR( d ); } /*! Creates a key sequence from the string \a key. For example "Ctrl+O" gives CTRL+UNICODE_ACCEL+'O'. The strings "Ctrl", "Shift", "Alt" and "Meta" are recognized, as well as their translated equivalents in the "TQAccel" context (using TQObject::tr()). Multiple key codes (up to four) may be entered by separating them with commas, e.g. "Alt+X,Ctrl+S,Q". This contructor 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( tr("&Open..."), this, TQ_SLOT(open()), TQKeySequence( tr("Ctrl+O", "File|Open") ) ); \endcode Note the \c "File|Open" translator comment. It is by no means necessary, but it provides some context for the human translator. */ TQKeySequence::TQKeySequence( const TQString& key ) { d = new TQKeySequencePrivate(); TQ_CHECK_PTR( d ); assign( key ); } // ### BCI: Merge with constructor below for 4.0 /*! Constructs a key sequence that has a single \a key. The key codes are listed in \c{ntqnamespace.h} and can be combined with modifiers, e.g. with \c SHIFT, \c CTRL, \c ALT, \c META or \c UNICODE_ACCEL. */ TQKeySequence::TQKeySequence( int key ) { d = new TQKeySequencePrivate(); TQ_CHECK_PTR( d ); d->key[0] = key; } /*! Constructs a key sequence with up to 4 keys \a k1, \a k2, \a k3 and \a k4. The key codes are listed in \c{ntqnamespace.h} and can be combined with modifiers, e.g. with \c SHIFT, \c CTRL, \c ALT, \c META or \c UNICODE_ACCEL. */ TQKeySequence::TQKeySequence( int k1, int k2, int k3, int k4 ) { d = new TQKeySequencePrivate(); TQ_CHECK_PTR( d ); d->key[0] = k1; d->key[1] = k2; d->key[2] = k3; d->key[3] = k4; } /*! Copy constructor. Makes a copy of \a keysequence. */ TQKeySequence::TQKeySequence( const TQKeySequence& keysequence ) : d( keysequence.d ) { d->ref(); } /*! Destroys the key sequence. */ TQKeySequence::~TQKeySequence() { if ( d->deref() ) delete d; } /*! \internal KeySequences should never be modified, but rather just created. Internally though we do need to modify to keep pace in event delivery. */ void TQKeySequence::setKey( int key, int index ) { #ifdef QT_CHECK_STATE if ( 0 > index && 4 < index ) { tqWarning( "TQKeySequence::setKey: index %u out of range", index ); return; } #endif // QT_CHECK_STATE if ( 1 < d->count ) { TQKeySequencePrivate *newd = new TQKeySequencePrivate( d ); d->deref(); d = newd; } d->key[index] = key; } /*! Returns the number of keys in the key sequence. The maximum is 4. */ uint TQKeySequence::count() const { if ( ! d->key[0] ) return 0; if ( ! d->key[1] ) return 1; if ( ! d->key[2] ) return 2; if ( ! d->key[3] ) return 3; return 4; } /*! Returns TRUE if the key sequence is empty; otherwise returns FALSE. */ bool TQKeySequence::isEmpty() const { return !d->key[0]; } /*! Adds the string \a keyseq to the key sequence. \a keyseq may contain up to four key codes, provided they are seperated by a comma, e.g. "Alt+X,Ctrl+S,Z"). Returns the number of key codes added. */ int TQKeySequence::assign( TQString keyseq ) { TQString part; int n = 0; int p = 0, diff = 0; // Run through the whole string, but stop // if we have 4 keys before the end. while ( keyseq.length() && n < 4 ) { // We MUST use something to seperate each sequence, and space // does not cut it, since some of the key names have space // in them.. (Let's hope no one translate with a comma in it:) p = keyseq.find( ',' ); if ( -1 != p ) { if ( ',' == keyseq[p+1] ) // e.g. 'Ctrl+,, Shift+,,' p++; if ( ' ' == keyseq[p+1] ) { // Space after comma diff = 1; p++; } else if ( '\0' == keyseq[p+1] ) { // Last comma 'Ctrl+,' p = -1; } else { diff = 0; } } part = keyseq.left( -1==p?keyseq.length():p-diff ); keyseq = keyseq.right( -1==p?0:keyseq.length() - ( p + 1 ) ); d->key[n] = decodeString( part ); n++; } return n; } struct ModifKeyName { ModifKeyName() { } ModifKeyName(int q, TQString n) : qt_key(q), name(n) { } int qt_key; TQString name; }; /*! Constructs a single key from the string \str. */ int TQKeySequence::decodeString( const TQString& str ) { int ret = 0; TQString accel = str; TQValueList modifs; #ifdef TQMAC_CTRL modifs << ModifKeyName( CTRL, TQMAC_CTRL ); #endif #ifdef TQMAC_ALT modifs << ModifKeyName( ALT, TQMAC_ALT ); #endif #ifdef TQMAC_META modifs << ModifKeyName( META, TQMAC_META ); #endif #ifdef TQMAC_SHIFT modifs << ModifKeyName( SHIFT, TQMAC_SHIFT ); #endif modifs << ModifKeyName( CTRL, "ctrl+" ) << ModifKeyName( CTRL, TQAccel::tr("Ctrl").lower().append('+') ); modifs << ModifKeyName( SHIFT, "shift+" ) << ModifKeyName( SHIFT, TQAccel::tr("Shift").lower().append('+') ); modifs << ModifKeyName( ALT, "alt+" ) << ModifKeyName( ALT, TQAccel::tr("Alt").lower().append('+') ); modifs << ModifKeyName( META, "meta+" ) << ModifKeyName( ALT, TQAccel::tr("Meta").lower().append('+') ); TQString sl = accel.lower(); for( TQValueList::iterator it = modifs.begin(); it != modifs.end(); ++it ) { if ( sl.contains( (*it).name ) ) { ret |= (*it).qt_key; #ifndef TQT_NO_REGEXP accel.remove( TQRegExp(TQRegExp::escape((*it).name), FALSE) ); #else accel.remove( (*it).name ); #endif sl = accel.lower(); } } int p = accel.findRev( '+', str.length() - 2 ); // -2 so that Ctrl++ works if( p > 0 ) accel = accel.mid( p + 1 ); int fnum = 0; if ( accel.length() == 1 ) { char ltr = accel[0].upper().latin1(); // We can only upper A-Z without problems. if ( ltr < (char)Key_A || ltr > (char)Key_Z ) ret |= accel[0].unicode(); else ret |= accel[0].upper().unicode(); ret |= UNICODE_ACCEL; } else if ( accel[0] == 'F' && (fnum = accel.mid(1).toInt()) && (fnum >= 1) && (fnum <= 35) ) { ret |= Key_F1 + fnum - 1; } else { // Check through translation table for the correct key name // ...or fall back on english table. bool found = FALSE; for ( int tran = 0; tran < 2; tran++ ) { for ( int i = 0; keyname[i].name; i++ ) { if ( tran ? accel == TQAccel::tr(keyname[i].name) : accel == keyname[i].name ) { ret |= keyname[i].key; found = TRUE; break; } } if(found) break; } } return ret; } /*! Creates an accelerator string for \a key. For example, CTRL+Key_O gives "Ctrl+O". The strings, "Ctrl", "Shift", etc. are translated (using TQObject::tr()) in the "TQAccel" context. */ TQString TQKeySequence::encodeString( int key ) { TQString s; #if defined(Q_OS_MAC) // On MAC the order is Meta, Alt, Shift, Control. if ( (key & META) == META ) s += TQMAC_META; if ( (key & ALT) == ALT ) s += TQMAC_ALT; if ( (key & SHIFT) == SHIFT ) s += TQMAC_SHIFT; if ( (key & CTRL) == CTRL ) s += TQMAC_CTRL; #else // On other systems the order is Meta, Control, Alt, Shift if ( (key & META) == META ) s += TQAccel::tr( "Meta" ); if ( (key & CTRL) == CTRL ) { if ( !s.isEmpty() ) s += TQAccel::tr( "+" ); s += TQAccel::tr( "Ctrl" ); } if ( (key & ALT) == ALT ) { if ( !s.isEmpty() ) s += TQAccel::tr( "+" ); s += TQAccel::tr( "Alt" ); } if ( (key & SHIFT) == SHIFT ) { if ( !s.isEmpty() ) s += TQAccel::tr( "+" ); s += TQAccel::tr( "Shift" ); } #endif key &= ~(SHIFT | CTRL | ALT | META ); TQString p; if ( (key & UNICODE_ACCEL) == UNICODE_ACCEL ) { // Note: This character should NOT be upper()'ed, since // the encoded string should indicate EXACTLY what the // key represents! Hence a 'Ctrl+Shift+c' is posible to // represent, but is clearly impossible to trigger... p = TQChar(key & 0xffff); } else if ( key >= Key_F1 && key <= Key_F35 ) { p = TQAccel::tr( "F%1" ).arg(key - Key_F1 + 1); } else if ( key > Key_Space && key <= Key_AsciiTilde ) { p.sprintf( "%c", key ); } else { int i=0; while (keyname[i].name) { if ( key == keyname[i].key ) { p = TQAccel::tr(keyname[i].name); break; } ++i; } // If we can't find the actual translatable keyname, // fall back on the unicode representation of it... // Or else characters like Key_aring may not get displayed // ( Really depends on you locale ) if ( !keyname[i].name ) // Note: This character should NOT be upper()'ed, see above! p = TQChar(key & 0xffff); } #ifndef Q_OS_MAC if ( !s.isEmpty() ) s += TQAccel::tr( "+" ); #endif s += p; return s; } /*! Matches the sequence with \a seq. Returns \c TQt::Identical if successful, \c TQt::PartialMatch for matching but incomplete \a seq, and \c TQt::NoMatch if the sequences have nothing in common. Returns \c TQt::NoMatch if \a seq is shorter. */ TQt::SequenceMatch TQKeySequence::matches( const TQKeySequence& seq ) const { uint userN = count(), seqN = seq.count(); if ( userN > seqN ) return NoMatch; // If equal in length, we have a potential Identical sequence, // else we already know it can only be partial. SequenceMatch match = ( userN == seqN ? Identical : PartialMatch ); for ( uint i = 0; i < userN; i++ ) { int userKey = (*this)[i], sequenceKey = seq[i]; if ( (userKey & ~TQt::UNICODE_ACCEL) != (sequenceKey & ~TQt::UNICODE_ACCEL) ) return NoMatch; } return match; } /*! Creates an accelerator string for the key sequence. For instance CTRL+Key_O gives "Ctrl+O". If the key sequence has multiple key codes they are returned comma-separated, e.g. "Alt+X, Ctrl+Y, Z". The strings, "Ctrl", "Shift", etc. are translated (using TQObject::tr()) in the "TQAccel" scope. If the key sequence has no keys, TQString::null is returned. On Mac OS X, the string returned resembles the sequence that is shown in the menubar. */ TQKeySequence::operator TQString() const { int end = count(); if ( !end ) return TQString::null; TQString complete; int i = 0; while ( i < end ) { complete += encodeString( d->key[i] ); i++; if ( i != end) complete += ", "; } return complete; } /*! \obsolete For backward compatibility: returns the first keycode as integer. If the key sequence is empty, 0 is returned. */ TQKeySequence::operator int () const { if ( 1 <= count() ) return d->key[0]; return 0; } /*! Returns a reference to the element at position \a index in the key sequence. This can only be used to read an element. */ int TQKeySequence::operator[]( uint index ) const { #ifdef QT_CHECK_STATE if ( index > 4 ) { tqWarning( "TQKeySequence::operator[]: index %u out of range", index ); return 0; } #endif // QT_CHECK_STATE return d->key[index]; } /*! Assignment operator. Assigns \a keysequence to this object. */ TQKeySequence &TQKeySequence::operator=( const TQKeySequence & keysequence ) { keysequence.d->ref(); if ( d->deref() ) delete d; d = keysequence.d; return *this; } /*! Returns TRUE if \a keysequence is equal to this key sequence; otherwise returns FALSE. */ bool TQKeySequence::operator==( const TQKeySequence& keysequence ) const { return ( (d->key[0]&~UNICODE_ACCEL) == (keysequence.d->key[0]&~UNICODE_ACCEL) && (d->key[1]&~UNICODE_ACCEL) == (keysequence.d->key[1]&~UNICODE_ACCEL) && (d->key[2]&~UNICODE_ACCEL) == (keysequence.d->key[2]&~UNICODE_ACCEL) && (d->key[3]&~UNICODE_ACCEL) == (keysequence.d->key[3]&~UNICODE_ACCEL) ); } /*! Returns TRUE if \a keysequence is not equal to this key sequence; otherwise returns FALSE. */ bool TQKeySequence::operator!= ( const TQKeySequence& keysequence ) const { TQKeySequence *that = (TQKeySequence*)this; return !( (*that) == keysequence ); } /***************************************************************************** TQKeySequence stream functions *****************************************************************************/ #if !defined(TQT_NO_DATASTREAM) && !defined(TQT_NO_IMAGEIO) /*! \relates TQKeySequence Writes the key sequence \a keysequence to the stream \a s. \sa \link datastreamformat.html Format of the TQDataStream operators \endlink */ TQDataStream &operator<<( TQDataStream &s, const TQKeySequence &keysequence ) { TQValueList list; list += keysequence.d->key[0]; list += keysequence.d->key[1]; list += keysequence.d->key[2]; list += keysequence.d->key[3]; s << list; return s; } /*! \relates TQKeySequence Reads a key sequence from the stream \a s into the key sequence \a keysequence. \sa \link datastreamformat.html Format of the TQDataStream operators \endlink */ TQDataStream &operator>>( TQDataStream &s, TQKeySequence &keysequence ) { TQValueList list; s >> list; #ifdef QT_CHECK_STATE if ( 1 != list.count() && 4 != list.count() ) { tqWarning( "Invalid TQKeySequence data in the datastream." ); return s; } #endif if ( 1 == list.count() ) { keysequence.d->key[0] = *list.at( 0 ); keysequence.d->key[1] = keysequence.d->key[2] = keysequence.d->key[3] = 0; } else { keysequence.d->key[0] = *list.at( 0 ); keysequence.d->key[1] = *list.at( 1 ); keysequence.d->key[2] = *list.at( 2 ); keysequence.d->key[3] = *list.at( 3 ); } return s; } #endif //TQT_NO_DATASTREAM #endif //TQT_NO_ACCEL