/**************************************************************************** ** $Id$ ** ** Implementation of TQSimpleInputContext class ** ** Copyright (C) 2004 immodule for TQt Project. All rights reserved. ** ** This file is written to contribute to Trolltech AS under their own ** licence. You may use this file under your TQt license. Following ** description is copied from their original file headers. Contact ** immodule-qt@freedesktop.org if any conditions of this licensing are ** not clear to you. ** ** ** This file is part of the input method module of the TQt GUI Toolkit. ** ** This file may be distributed under the terms of the Q Public License ** as defined by Trolltech AS of Norway and appearing in the file ** LICENSE.TQPL included in the packaging of this file. ** ** This file may be distributed and/or modified under the terms of the ** GNU General Public License version 2 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. ** ** Licensees holding valid TQt Enterprise Edition or TQt Professional Edition ** 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 ** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. ** ** See http://www.trolltech.com/pricing.html or email sales@trolltech.com for ** information about TQt Commercial License Agreements. ** See http://www.trolltech.com/qpl/ for TQPL licensing information. ** See http://www.trolltech.com/gpl/ for GPL licensing information. ** ** Contact info@trolltech.com if any conditions of this licensing are ** not clear to you. ** **********************************************************************/ #include "qsimpleinputcontext.h" #include #include #include #include static const int ignoreKeys[] = { TQt::Key_Shift, TQt::Key_Control, TQt::Key_Meta, TQt::Key_Alt, TQt::Key_CapsLock, TQt::Key_Super_L, TQt::Key_Super_R, TQt::Key_Hyper_L, TQt::Key_Hyper_R, TQt::Key_Mode_switch }; static const int composingKeys[] = { TQt::Key_Multi_key, TQt::Key_Dead_Grave, TQt::Key_Dead_Acute, TQt::Key_Dead_Circumflex, TQt::Key_Dead_Tilde, TQt::Key_Dead_Macron, TQt::Key_Dead_Breve, TQt::Key_Dead_Abovedot, TQt::Key_Dead_Diaeresis, TQt::Key_Dead_Abovering, TQt::Key_Dead_Doubleacute, TQt::Key_Dead_Caron, TQt::Key_Dead_Cedilla, TQt::Key_Dead_Ogonek, TQt::Key_Dead_Iota, TQt::Key_Dead_Voiced_Sound, TQt::Key_Dead_Semivoiced_Sound, TQt::Key_Dead_Belowdot, TQt::Key_Dead_Hook, TQt::Key_Dead_Horn }; class Cmp { public: bool operator () (const TQComposeTableElement &lhs, const TQComposeTableElement &rhs) const { for ( size_t i=0; i < QT_KEYSETQUENCE_MAX_LEN; i++ ) { if ( lhs.keys[i] < rhs.keys[i] ) return TRUE; else if ( lhs.keys[i] > rhs.keys[i] ) return FALSE; } return FALSE; } bool operator () (const TQComposeTableElement &lhs, const uint rhs[QT_KEYSETQUENCE_MAX_LEN]) const { for ( size_t i=0; i < QT_KEYSETQUENCE_MAX_LEN; i++ ) { if ( lhs.keys[i] < rhs[i] ) return TRUE; else if ( lhs.keys[i] > rhs[i] ) return FALSE; } return FALSE; } }; TQSimpleInputContext::TQSimpleInputContext() : TQInputContext() { clearComposeBuffer(); } TQSimpleInputContext::~TQSimpleInputContext() { clearComposeBuffer(); } bool TQSimpleInputContext::filterEvent( const TQEvent *event ) { if ( event->type() != TQEvent::KeyPress ) return FALSE; TQKeyEvent *keyevent = (TQKeyEvent *)event; int keyval = keyevent->key(); int val = 0; if ( isIgnoreKeys( keyval ) ) return FALSE; if ( isComposingKeys( keyval ) ) { // If composing keys are pressed, use keyval directly val = UNITIZE( keyval ); } else { TQString text = keyevent->text(); if ( text.isEmpty() ) return FALSE; // If not composing keys are pressed, use the character's unicode value // NOTE : The contents of TQKeyEvent::text() is restricted to // only one character. See description of // TQInputContext::filterEvent() about key compression. val = text[0].unicode(); // tqDebug( "str = %s", (const char*)keyevent->text().local8Bit() ); } // Store value int nCompose = 0; while ( composeBuffer[nCompose] != 0 && nCompose < QT_KEYSETQUENCE_MAX_LEN ) nCompose++; if ( nCompose == QT_KEYSETQUENCE_MAX_LEN ) { clearComposeBuffer(); nCompose = 0; } composeBuffer[nCompose] = val; // check sequence if( checkComposeTable( composeBuffer, &defaultComposeTable ) ) return TRUE; return FALSE; } void TQSimpleInputContext::setFocus() { //tqDebug( "TQSimpleInputContext: %p->setFocus(), focusWidget()=%p", //this, focusWidget() ); } void TQSimpleInputContext::unsetFocus() { //tqDebug( "TQSimpleInputContext: %p->unsetFocus(), focusWidget()=%p", //this, focusWidget() ); reset(); } void TQSimpleInputContext::setMicroFocus( int x, int y, int w, int h, TQFont *f ) { } void TQSimpleInputContext::mouseHandler( int x, TQEvent::Type type, TQt::ButtonState button, TQt::ButtonState state ) { switch ( type ) { case TQEvent::MouseButtonPress: case TQEvent::MouseButtonRelease: case TQEvent::MouseButtonDblClick: case TQEvent::MouseMove: // tqDebug( "TQSimpleInputContext::mouseHandler: " // "x=%d, type=%d, button=%d, state=%d", x, type, button, state ); break; default: break; } } void TQSimpleInputContext::reset() { clearComposeBuffer(); TQInputContext::reset(); } TQString TQSimpleInputContext::identifierName() { return "simple"; } TQString TQSimpleInputContext::language() { return ""; // FIXME } bool TQSimpleInputContext::isIgnoreKeys( int keyval ) { for ( uint i = 0; i < (sizeof(ignoreKeys)/sizeof(ignoreKeys[0])); i++ ) if ( keyval == ignoreKeys[i] ) return TRUE; return FALSE; } bool TQSimpleInputContext::isComposingKeys( int keyval ) { for ( uint i = 0; i < (sizeof(composingKeys)/sizeof(composingKeys[0])); i++ ) if ( keyval == composingKeys[i] ) return TRUE; return FALSE; } bool TQSimpleInputContext::checkComposeTable( uint* composeBuffer, const TQComposeTable *composeTable ) { const TQComposeTableElement *p = std::lower_bound( composeTable->data, composeTable->data + composeTable->size, composeBuffer, Cmp() ); // no entries were found if ( p == composeTable->data + composeTable->size ) { // tqDebug( "no match" ); clearComposeBuffer(); return FALSE; } // check if compose buffer is matched for ( int i=0; i < QT_KEYSETQUENCE_MAX_LEN; i++ ) { // check if partial match if ( composeBuffer[i] == 0 && p->keys[i] ) { // tqDebug("partial match"); return TRUE; } if ( composeBuffer[i] != p->keys[i] ) { // tqDebug("different entry"); clearComposeBuffer(); return i!=0; } } // tqDebug("match exactly"); // match exactly commitChar( p->value ); clearComposeBuffer(); return TRUE; } void TQSimpleInputContext::commitChar( uint c ) { sendIMEvent( TQEvent::IMStart ); sendIMEvent( TQEvent::IMEnd, TQString(TQChar(c)) ); } void TQSimpleInputContext::clearComposeBuffer(void) { for ( uint i=0; i < (sizeof(composeBuffer)/sizeof(int)); i++ ) composeBuffer[i] = 0; }