/* This source file was part of Konsole, a terminal emulator. Copyright (C) 2007 by Robert Knight Rewritten for QT4 by e_k , Copyright (C)2008 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ // Own #include "KeyboardTranslator.h" // System #include #include // Qt #include //#include #include #include #include #include // KDE //#include //#include //#include using namespace Konsole; //this is for default REALLY fallback translator. //const char* KeyboardTranslatorManager::defaultTranslatorText = //#include "DefaultTranslatorText.h" //; //and this is default now translator - default.keytab from original Konsole const char* KeyboardTranslatorManager::defaultTranslatorText = #include "ExtendedDefaultTranslator.h" ; KeyboardTranslatorManager::KeyboardTranslatorManager() : _haveLoadedAll(false) { } KeyboardTranslatorManager::~KeyboardTranslatorManager() { qDeleteAll(_translators.values()); } QString KeyboardTranslatorManager::findTranslatorPath(const QString& name) { return QString("kb-layouts/" + name + ".keytab"); } void KeyboardTranslatorManager::findTranslators() { QDir dir("kb-layouts/"); QStringList filters; filters << "*.keytab"; dir.setNameFilters(filters); QStringList list = dir.entryList(filters); //(".keytab"); // = KGlobal::dirs()->findAllResources("data", // "konsole/*.keytab", // KStandardDirs::NoDuplicates); list = dir.entryList(filters); // add the name of each translator to the list and associated // the name with a null pointer to indicate that the translator // has not yet been loaded from disk QStringListIterator listIter(list); while (listIter.hasNext()) { QString translatorPath = listIter.next(); QString name = QFileInfo(translatorPath).baseName(); if ( !_translators.contains(name) ) { _translators.insert(name,0); } } _haveLoadedAll = true; } const KeyboardTranslator* KeyboardTranslatorManager::findTranslator(const QString& name) { if ( name.isEmpty() ) return defaultTranslator(); //here was smth wrong in original Konsole source findTranslators(); if ( _translators.contains(name) && _translators[name] != 0 ) { return _translators[name]; } KeyboardTranslator* translator = loadTranslator(name); if ( translator != 0 ) _translators[name] = translator; else if ( !name.isEmpty() ) qWarning() << "Unable to load translator" << name; return translator; } bool KeyboardTranslatorManager::saveTranslator(const KeyboardTranslator* translator) { const QString path = ".keytab";// = KGlobal::dirs()->saveLocation("data","konsole/")+translator->name() // +".keytab"; qDebug() << "Saving translator to" << path; QFile destination(path); if (!destination.open(QIODevice::WriteOnly | QIODevice::Text)) { qWarning() << "Unable to save keyboard translation:" << destination.errorString(); return false; } { KeyboardTranslatorWriter writer(&destination); writer.writeHeader(translator->description()); QListIterator iter(translator->entries()); while ( iter.hasNext() ) writer.writeEntry(iter.next()); } destination.close(); return true; } KeyboardTranslator* KeyboardTranslatorManager::loadTranslator(const QString& name) { const QString& path = findTranslatorPath(name); QFile source(path); if (name.isEmpty() || !source.open(QIODevice::ReadOnly | QIODevice::Text)) return 0; return loadTranslator(&source,name); } const KeyboardTranslator* KeyboardTranslatorManager::defaultTranslator() { qDebug() << "Loading default translator from text"; QBuffer textBuffer; textBuffer.setData(defaultTranslatorText,strlen(defaultTranslatorText)); if (!textBuffer.open(QIODevice::ReadOnly)) return 0; return loadTranslator(&textBuffer,"fallback"); } KeyboardTranslator* KeyboardTranslatorManager::loadTranslator(QIODevice* source,const QString& name) { KeyboardTranslator* translator = new KeyboardTranslator(name); KeyboardTranslatorReader reader(source); translator->setDescription( reader.description() ); while ( reader.hasNextEntry() ) { translator->addEntry(reader.nextEntry()); } source->close(); if ( !reader.parseError() ) { return translator; } else { delete translator; return 0; } } KeyboardTranslatorWriter::KeyboardTranslatorWriter(QIODevice* destination) : _destination(destination) { Q_ASSERT( destination && destination->isWritable() ); _writer = new QTextStream(_destination); } KeyboardTranslatorWriter::~KeyboardTranslatorWriter() { delete _writer; } void KeyboardTranslatorWriter::writeHeader( const QString& description ) { *_writer << "keyboard \"" << description << '\"' << '\n'; } void KeyboardTranslatorWriter::writeEntry( const KeyboardTranslator::Entry& entry ) { QString result; if ( entry.command() != KeyboardTranslator::NoCommand ) result = entry.resultToString(); else result = '\"' + entry.resultToString() + '\"'; *_writer << "key " << entry.conditionToString() << " : " << result << '\n'; } // each line of the keyboard translation file is one of: // // - keyboard "name" // - key KeySequence : "characters" // - key KeySequence : CommandName // // KeySequence begins with the name of the key ( taken from the Qt::Key enum ) // and is followed by the keyboard modifiers and state flags ( with + or - in front // of each modifier or flag to indicate whether it is required ). All keyboard modifiers // and flags are optional, if a particular modifier or state is not specified it is // assumed not to be a part of the sequence. The key sequence may contain whitespace // // eg: "key Up+Shift : scrollLineUp" // "key Next-Shift : "\E[6~" // // (lines containing only whitespace are ignored, parseLine assumes that comments have // already been removed) // KeyboardTranslatorReader::KeyboardTranslatorReader( QIODevice* source ) : _source(source) , _hasNext(false) { // read input until we find the description while ( _description.isEmpty() && !source->atEnd() ) { const QList& tokens = tokenize( QString(source->readLine()) ); if ( !tokens.isEmpty() && tokens.first().type == Token::TitleKeyword ) { _description = (tokens[1].text.toUtf8()); } } readNext(); } void KeyboardTranslatorReader::readNext() { // find next entry while ( !_source->atEnd() ) { const QList& tokens = tokenize( QString(_source->readLine()) ); if ( !tokens.isEmpty() && tokens.first().type == Token::KeyKeyword ) { KeyboardTranslator::States flags = KeyboardTranslator::NoState; KeyboardTranslator::States flagMask = KeyboardTranslator::NoState; Qt::KeyboardModifiers modifiers = Qt::NoModifier; Qt::KeyboardModifiers modifierMask = Qt::NoModifier; int keyCode = Qt::Key_unknown; decodeSequence(tokens[1].text.toLower(), keyCode, modifiers, modifierMask, flags, flagMask); KeyboardTranslator::Command command = KeyboardTranslator::NoCommand; QByteArray text; // get text or command if ( tokens[2].type == Token::OutputText ) { text = tokens[2].text.toLocal8Bit(); } else if ( tokens[2].type == Token::Command ) { // identify command if (!parseAsCommand(tokens[2].text,command)) qWarning() << "Command" << tokens[2].text << "not understood."; } KeyboardTranslator::Entry newEntry; newEntry.setKeyCode( keyCode ); newEntry.setState( flags ); newEntry.setStateMask( flagMask ); newEntry.setModifiers( modifiers ); newEntry.setModifierMask( modifierMask ); newEntry.setText( text ); newEntry.setCommand( command ); _nextEntry = newEntry; _hasNext = true; return; } } _hasNext = false; } bool KeyboardTranslatorReader::parseAsCommand(const QString& text,KeyboardTranslator::Command& command) { if ( text.compare("erase",Qt::CaseInsensitive) == 0 ) command = KeyboardTranslator::EraseCommand; else if ( text.compare("scrollpageup",Qt::CaseInsensitive) == 0 ) command = KeyboardTranslator::ScrollPageUpCommand; else if ( text.compare("scrollpagedown",Qt::CaseInsensitive) == 0 ) command = KeyboardTranslator::ScrollPageDownCommand; else if ( text.compare("scrolllineup",Qt::CaseInsensitive) == 0 ) command = KeyboardTranslator::ScrollLineUpCommand; else if ( text.compare("scrolllinedown",Qt::CaseInsensitive) == 0 ) command = KeyboardTranslator::ScrollLineDownCommand; else if ( text.compare("scrolllock",Qt::CaseInsensitive) == 0 ) command = KeyboardTranslator::ScrollLockCommand; else return false; return true; } bool KeyboardTranslatorReader::decodeSequence(const QString& text, int& keyCode, Qt::KeyboardModifiers& modifiers, Qt::KeyboardModifiers& modifierMask, KeyboardTranslator::States& flags, KeyboardTranslator::States& flagMask) { bool isWanted = true; bool endOfItem = false; QString buffer; Qt::KeyboardModifiers tempModifiers = modifiers; Qt::KeyboardModifiers tempModifierMask = modifierMask; KeyboardTranslator::States tempFlags = flags; KeyboardTranslator::States tempFlagMask = flagMask; for ( int i = 0 ; i < text.count() ; i++ ) { const QChar& ch = text[i]; bool isLastLetter = ( i == text.count()-1 ); endOfItem = true; if ( ch.isLetterOrNumber() ) { endOfItem = false; buffer.append(ch); } if ( (endOfItem || isLastLetter) && !buffer.isEmpty() ) { Qt::KeyboardModifier itemModifier = Qt::NoModifier; int itemKeyCode = 0; KeyboardTranslator::State itemFlag = KeyboardTranslator::NoState; if ( parseAsModifier(buffer,itemModifier) ) { tempModifierMask |= itemModifier; if ( isWanted ) tempModifiers |= itemModifier; } else if ( parseAsStateFlag(buffer,itemFlag) ) { tempFlagMask |= itemFlag; if ( isWanted ) tempFlags |= itemFlag; } else if ( parseAsKeyCode(buffer,itemKeyCode) ) keyCode = itemKeyCode; else qDebug() << "Unable to parse key binding item:" << buffer; buffer.clear(); } // check if this is a wanted / not-wanted flag and update the // state ready for the next item if ( ch == '+' ) isWanted = true; else if ( ch == '-' ) isWanted = false; } modifiers = tempModifiers; modifierMask = tempModifierMask; flags = tempFlags; flagMask = tempFlagMask; return true; } bool KeyboardTranslatorReader::parseAsModifier(const QString& item , Qt::KeyboardModifier& modifier) { if ( item == "shift" ) modifier = Qt::ShiftModifier; else if ( item == "ctrl" || item == "control" ) modifier = Qt::ControlModifier; else if ( item == "alt" ) modifier = Qt::AltModifier; else if ( item == "meta" ) modifier = Qt::MetaModifier; else if ( item == "keypad" ) modifier = Qt::KeypadModifier; else return false; return true; } bool KeyboardTranslatorReader::parseAsStateFlag(const QString& item , KeyboardTranslator::State& flag) { if ( item == "appcukeys" ) flag = KeyboardTranslator::CursorKeysState; else if ( item == "ansi" ) flag = KeyboardTranslator::AnsiState; else if ( item == "newline" ) flag = KeyboardTranslator::NewLineState; else if ( item == "appscreen" ) flag = KeyboardTranslator::AlternateScreenState; else if ( item == "anymod" ) flag = KeyboardTranslator::AnyModifierState; else return false; return true; } bool KeyboardTranslatorReader::parseAsKeyCode(const QString& item , int& keyCode) { QKeySequence sequence = QKeySequence::fromString(item); if ( !sequence.isEmpty() ) { keyCode = sequence[0]; if ( sequence.count() > 1 ) { qDebug() << "Unhandled key codes in sequence: " << item; } } // additional cases implemented for backwards compatibility with KDE 3 else if ( item == "prior" ) keyCode = Qt::Key_PageUp; else if ( item == "next" ) keyCode = Qt::Key_PageDown; else return false; return true; } QString KeyboardTranslatorReader::description() const { return _description; } bool KeyboardTranslatorReader::hasNextEntry() { return _hasNext; } KeyboardTranslator::Entry KeyboardTranslatorReader::createEntry( const QString& condition , const QString& result ) { QString entryString("keyboard \"temporary\"\nkey "); entryString.append(condition); entryString.append(" : "); // if 'result' is the name of a command then the entry result will be that command, // otherwise the result will be treated as a string to echo when the key sequence // specified by 'condition' is pressed KeyboardTranslator::Command command; if (parseAsCommand(result,command)) entryString.append(result); else entryString.append('\"' + result + '\"'); QByteArray array = entryString.toUtf8(); KeyboardTranslator::Entry entry; QBuffer buffer(&array); buffer.open(QIODevice::ReadOnly); KeyboardTranslatorReader reader(&buffer); if ( reader.hasNextEntry() ) entry = reader.nextEntry(); return entry; } KeyboardTranslator::Entry KeyboardTranslatorReader::nextEntry() { Q_ASSERT( _hasNext ); KeyboardTranslator::Entry entry = _nextEntry; readNext(); return entry; } bool KeyboardTranslatorReader::parseError() { return false; } QList KeyboardTranslatorReader::tokenize(const QString& line) { QString text = line.simplified(); // comment line: # comment static QRegExp comment("\\#.*"); // title line: keyboard "title" static QRegExp title("keyboard\\s+\"(.*)\""); // key line: key KeySequence : "output" // key line: key KeySequence : command static QRegExp key("key\\s+([\\w\\+\\s\\-]+)\\s*:\\s*(\"(.*)\"|\\w+)"); QList list; if ( text.isEmpty() || comment.exactMatch(text) ) { return list; } if ( title.exactMatch(text) ) { Token titleToken = { Token::TitleKeyword , QString() }; Token textToken = { Token::TitleText , title.capturedTexts()[1] }; list << titleToken << textToken; } else if ( key.exactMatch(text) ) { Token keyToken = { Token::KeyKeyword , QString() }; Token sequenceToken = { Token::KeySequence , key.capturedTexts()[1].remove(' ') }; list << keyToken << sequenceToken; if ( key.capturedTexts()[3].isEmpty() ) { // capturedTexts()[2] is a command Token commandToken = { Token::Command , key.capturedTexts()[2] }; list << commandToken; } else { // capturedTexts()[3] is the output string Token outputToken = { Token::OutputText , key.capturedTexts()[3] }; list << outputToken; } } else { qWarning() << "Line in keyboard translator file could not be understood:" << text; } return list; } QList KeyboardTranslatorManager::allTranslators() { if ( !_haveLoadedAll ) { findTranslators(); } return _translators.keys(); } KeyboardTranslator::Entry::Entry() : _keyCode(0) , _modifiers(Qt::NoModifier) , _modifierMask(Qt::NoModifier) , _state(NoState) , _stateMask(NoState) , _command(NoCommand) { } bool KeyboardTranslator::Entry::operator==(const Entry& rhs) const { return _keyCode == rhs._keyCode && _modifiers == rhs._modifiers && _modifierMask == rhs._modifierMask && _state == rhs._state && _stateMask == rhs._stateMask && _command == rhs._command && _text == rhs._text; } bool KeyboardTranslator::Entry::matches(int keyCode , Qt::KeyboardModifiers modifiers, States state) const { if ( _keyCode != keyCode ) return false; if ( (modifiers & _modifierMask) != (_modifiers & _modifierMask) ) return false; // if modifiers is non-zero, the 'any modifier' state is implicit if ( modifiers != 0 ) state |= AnyModifierState; if ( (state & _stateMask) != (_state & _stateMask) ) return false; // special handling for the 'Any Modifier' state, which checks for the presence of // any or no modifiers. In this context, the 'keypad' modifier does not count. bool anyModifiersSet = modifiers != 0 && modifiers != Qt::KeypadModifier; if ( _stateMask & KeyboardTranslator::AnyModifierState ) { // test fails if any modifier is required but none are set if ( (_state & KeyboardTranslator::AnyModifierState) && !anyModifiersSet ) return false; // test fails if no modifier is allowed but one or more are set if ( !(_state & KeyboardTranslator::AnyModifierState) && anyModifiersSet ) return false; } return true; } QByteArray KeyboardTranslator::Entry::escapedText(bool expandWildCards,Qt::KeyboardModifiers modifiers) const { QByteArray result(text(expandWildCards,modifiers)); for ( int i = 0 ; i < result.count() ; i++ ) { char ch = result[i]; char replacement = 0; switch ( ch ) { case 27 : replacement = 'E'; break; case 8 : replacement = 'b'; break; case 12 : replacement = 'f'; break; case 9 : replacement = 't'; break; case 13 : replacement = 'r'; break; case 10 : replacement = 'n'; break; default: // any character which is not printable is replaced by an equivalent // \xhh escape sequence (where 'hh' are the corresponding hex digits) if ( !QChar(ch).isPrint() ) replacement = 'x'; } if ( replacement == 'x' ) { result.replace(i,1,"\\x"+QByteArray(1,ch).toInt(0, 16)); } else if ( replacement != 0 ) { result.remove(i,1); result.insert(i,'\\'); result.insert(i+1,replacement); } } return result; } QByteArray KeyboardTranslator::Entry::unescape(const QByteArray& input) const { QByteArray result(input); for ( int i = 0 ; i < result.count()-1 ; i++ ) { QByteRef ch = result[i]; if ( ch == '\\' ) { char replacement[2] = {0,0}; int charsToRemove = 2; bool escapedChar = true; switch ( result[i+1] ) { case 'E' : replacement[0] = 27; break; case 'b' : replacement[0] = 8 ; break; case 'f' : replacement[0] = 12; break; case 't' : replacement[0] = 9 ; break; case 'r' : replacement[0] = 13; break; case 'n' : replacement[0] = 10; break; case 'x' : { // format is \xh or \xhh where 'h' is a hexadecimal // digit from 0-9 or A-F which should be replaced // with the corresponding character value char hexDigits[3] = {0}; if ( (i < result.count()-2) && isxdigit(result[i+2]) ) hexDigits[0] = result[i+2]; if ( (i < result.count()-3) && isxdigit(result[i+3]) ) hexDigits[1] = result[i+3]; int charValue = 0; sscanf(hexDigits,"%x",&charValue); replacement[0] = (char)charValue; charsToRemove = 2 + strlen(hexDigits); } break; default: escapedChar = false; } if ( escapedChar ) result.replace(i,charsToRemove,replacement); } } return result; } void KeyboardTranslator::Entry::insertModifier( QString& item , int modifier ) const { if ( !(modifier & _modifierMask) ) return; if ( modifier & _modifiers ) item += '+'; else item += '-'; if ( modifier == Qt::ShiftModifier ) item += "Shift"; else if ( modifier == Qt::ControlModifier ) item += "Ctrl"; else if ( modifier == Qt::AltModifier ) item += "Alt"; else if ( modifier == Qt::MetaModifier ) item += "Meta"; else if ( modifier == Qt::KeypadModifier ) item += "KeyPad"; } void KeyboardTranslator::Entry::insertState( QString& item , int state ) const { if ( !(state & _stateMask) ) return; if ( state & _state ) item += '+' ; else item += '-' ; if ( state == KeyboardTranslator::AlternateScreenState ) item += "AppScreen"; else if ( state == KeyboardTranslator::NewLineState ) item += "NewLine"; else if ( state == KeyboardTranslator::AnsiState ) item += "Ansi"; else if ( state == KeyboardTranslator::CursorKeysState ) item += "AppCuKeys"; else if ( state == KeyboardTranslator::AnyModifierState ) item += "AnyMod"; } QString KeyboardTranslator::Entry::resultToString(bool expandWildCards,Qt::KeyboardModifiers modifiers) const { if ( !_text.isEmpty() ) return escapedText(expandWildCards,modifiers); else if ( _command == EraseCommand ) return "Erase"; else if ( _command == ScrollPageUpCommand ) return "ScrollPageUp"; else if ( _command == ScrollPageDownCommand ) return "ScrollPageDown"; else if ( _command == ScrollLineUpCommand ) return "ScrollLineUp"; else if ( _command == ScrollLineDownCommand ) return "ScrollLineDown"; else if ( _command == ScrollLockCommand ) return "ScrollLock"; return QString(); } QString KeyboardTranslator::Entry::conditionToString() const { QString result = QKeySequence(_keyCode).toString(); // add modifiers insertModifier( result , Qt::ShiftModifier ); insertModifier( result , Qt::ControlModifier ); insertModifier( result , Qt::AltModifier ); insertModifier( result , Qt::MetaModifier ); // add states insertState( result , KeyboardTranslator::AlternateScreenState ); insertState( result , KeyboardTranslator::NewLineState ); insertState( result , KeyboardTranslator::AnsiState ); insertState( result , KeyboardTranslator::CursorKeysState ); insertState( result , KeyboardTranslator::AnyModifierState ); return result; } KeyboardTranslator::KeyboardTranslator(const QString& name) : _name(name) { } void KeyboardTranslator::setDescription(const QString& description) { _description = description; } QString KeyboardTranslator::description() const { return _description; } void KeyboardTranslator::setName(const QString& name) { _name = name; } QString KeyboardTranslator::name() const { return _name; } QList KeyboardTranslator::entries() const { return _entries.values(); } void KeyboardTranslator::addEntry(const Entry& entry) { const int keyCode = entry.keyCode(); _entries.insertMulti(keyCode,entry); } void KeyboardTranslator::replaceEntry(const Entry& existing , const Entry& replacement) { if ( !existing.isNull() ) _entries.remove(existing.keyCode()); _entries.insertMulti(replacement.keyCode(),replacement); } void KeyboardTranslator::removeEntry(const Entry& entry) { _entries.remove(entry.keyCode()); } KeyboardTranslator::Entry KeyboardTranslator::findEntry(int keyCode, Qt::KeyboardModifiers modifiers, States state) const { if ( _entries.contains(keyCode) ) { QList entriesForKey = _entries.values(keyCode); QListIterator iter(entriesForKey); while (iter.hasNext()) { const Entry& next = iter.next(); if ( next.matches(keyCode,modifiers,state) ) return next; } return Entry(); // entry not found } else { return Entry(); } } void KeyboardTranslatorManager::addTranslator(KeyboardTranslator* translator) { _translators.insert(translator->name(),translator); if ( !saveTranslator(translator) ) qWarning() << "Unable to save translator" << translator->name() << "to disk."; } bool KeyboardTranslatorManager::deleteTranslator(const QString& name) { Q_ASSERT( _translators.contains(name) ); // locate and delete QString path = findTranslatorPath(name); if ( QFile::remove(path) ) { _translators.remove(name); return true; } else { qWarning() << "Failed to remove translator - " << path; return false; } } K_GLOBAL_STATIC( KeyboardTranslatorManager , theKeyboardTranslatorManager ) KeyboardTranslatorManager* KeyboardTranslatorManager::instance() { return theKeyboardTranslatorManager; }