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tdeedu/ktouch/src/ktouchkeyboardwidget.cpp

533 lines
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/***************************************************************************
* ktouchkeyboardwidget.cpp *
* ------------------------ *
* Copyright (C) 2000 by Håvard Frøiland, 2004 by Andreas Nicolai *
* ghorwin@users.sourceforge.net *
* *
* 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. *
***************************************************************************/
#include "ktouchkeyboardwidget.h"
#include "ktouchkeyboardwidget.moc"
#include <algorithm>
#include <set>
#include <tqfile.h>
#include <kdebug.h>
#include <ktempfile.h>
#include <klocale.h>
#include <kio/netaccess.h>
#include <kstandarddirs.h>
#include <kmessagebox.h>
#include "prefs.h"
#include "ktouchkeyconnector.h"
// the margin between keyboard and widget frame
const int MARGIN = 10;
TQMap<TQChar, int> KTouchKeyboardWidget::m_keyCharMap;
// --------------------------------------------------------------------------
KTouchKeyboardWidget::KTouchKeyboardWidget(TQWidget *parent)
: TQWidget(parent), m_keyboardWidth(100), m_keyboardHeight(60), m_currentLayout(""),
m_hideKeyboard(false)
{
setMinimumHeight(100); // when it's smaller you won't see anything
m_keyList.setAutoDelete(true); // the list is responsable for cleaning up
}
bool KTouchKeyboardWidget::loadKeyboard(TQWidget * window, const KURL& url, TQString* errorMsg) {
TQString target;
if (KIO::NetAccess::download(url, target, window)) {
TQString msg;
bool result = readKeyboard(target, msg);
KIO::NetAccess::removeTempFile(target);
if (!result && errorMsg!=NULL)
*errorMsg = i18n("Could not read the keyboard layout file '%1'. ").arg(url.url()) + msg;
return result;
}
else {
if (errorMsg!=NULL)
*errorMsg = i18n("Could not download/open keyboard layout file from '%1'.").arg(url.url());
return false;
}
}
void KTouchKeyboardWidget::saveKeyboard(TQWidget * window, const KURL& url) {
TQString tmpFile;
KTempFile *temp=0;
if (url.isLocalFile())
tmpFile=url.path(); // for local files the path is sufficient
else {
temp=new KTempFile; // for remote files create a temporary file first
tmpFile=temp->name();
}
TQFile outfile(tmpFile);
if ( !outfile.open( IO_WriteOnly ) ) {
if (temp) delete temp;
return;
}
TQTextStream out( &outfile );
out << "########################################## \n";
out << "# # \n";
out << "# Keyboard layout file for KTouch # \n";
out << "# # \n";
out << "########################################## \n";
out << "#\n";
out << endl;
for (KTouchBaseKey * key = m_keyList.first(); key; key = m_keyList.next()) {
switch (key->type()) {
case KTouchBaseKey::FINGER_KEY : out << "FingerKey "; break;
case KTouchBaseKey::NORMAL_KEY : out << "NormalKey "; break;
case KTouchBaseKey::CONTROL_KEY : out << "ControlKey "; break;
default : out << "NormalKey "; break;
}
TQRect rect=key->frame();
out << key->m_keyChar.unicode() << '\t' << key->m_keyText << '\t'
<< rect.left() << '\t' << rect.top() << '\t' << rect.width() << '\t' << rect.height() << endl;
}
if (temp) {
KIO::NetAccess::upload(tmpFile, url, window);
temp->unlink();
delete temp;
}
}
void KTouchKeyboardWidget::applyPreferences(TQWidget * window, bool silent) {
m_hideKeyboard = Prefs::hideKeyboard();
if (m_hideKeyboard)
setMaximumHeight(100);
else
setMaximumHeight(10000);
// let's check whether the keyboard layout has changed
if (Prefs::currentKeyboardFile() != m_currentLayout) {
// if the layout is the number layout just create it and we're done
//kdDebug() << "[KTouchKeyboardWidget::applyPreferences] keyboard = " << Prefs::currentKeyboardFile() << endl;
if (Prefs::currentKeyboardFile()=="number.keyboard") {
createDefaultKeyboard();
resizeEvent(NULL);
return;
}
// ok, let's load this layout
if (silent) {
// during initialisation we don't want to have a message box, that's why this is silent
if (!loadKeyboard(window, KURL::fromPathOrURL( Prefs::currentKeyboardFile() )))
createDefaultKeyboard();
else
m_currentLayout=Prefs::currentKeyboardFile();
}
else {
TQString errorMsg;
if (!loadKeyboard(window, KURL::fromPathOrURL( Prefs::currentKeyboardFile() ), &errorMsg)) {
KMessageBox::error( 0, i18n("Error reading the keyboard layout; the default number keypad will "
"be created instead. You can choose another keyboard layout in the preferences dialog."),
errorMsg);
createDefaultKeyboard();
}
else
m_currentLayout=Prefs::currentKeyboardFile();
}
}
updateColours(); // we recreate the colour connections
// assign keyboard font to keys
for (KTouchBaseKey * key = m_keyList.first(); key; key = m_keyList.next()) {
if (Prefs::overrideKeyboardFont())
key->m_font = Prefs::keyboardFont();
else
key->m_font = Prefs::font();
}
// kdDebug() << "[KTouchKeyboard::applyPreferences] Assigned key font" << endl;
resizeEvent(NULL); // paint the keyboard
newKey(m_nextKey); // and finally display the "next to be pressed" key again
}
void KTouchKeyboardWidget::newKey(const TQChar& nextChar) {
if (m_hideKeyboard) return;
TQPainter painter(this);
painter.translate(m_shift, MARGIN);
// first clean the markings on all keys
for (KTouchBaseKey * key = m_keyList.first(); key; key = m_keyList.next()) {
if (key->m_isActive || key->m_isNextKey) {
key->m_isActive=key->m_isNextKey=false;
key->paint(painter);
}
}
if (Prefs::showAnimation()){ // only do this if we want to show animation.
// find the key in the key connector list
TQValueList<KTouchKeyConnection>::iterator keyIt = m_connectorList.begin();
while (keyIt!=m_connectorList.end() && (*keyIt).m_keyChar!=nextChar) ++keyIt;
// if found mark the appropriate keys
if (keyIt!=m_connectorList.end()) {
TQChar targetChar = (*keyIt).m_targetKeyChar;
TQChar fingerChar = (*keyIt).m_fingerKeyChar;
TQChar controlChar = (*keyIt).m_controlKeyChar;
// find the keys in the keylist
for (KTouchBaseKey * key = m_keyList.first(); key; key = m_keyList.next()) {
if (key->m_keyChar==TQChar(0)) continue; // skip decorative keys
if (key->m_keyChar==targetChar) key->m_isNextKey=true;
else if (key->m_keyChar==fingerChar) key->m_isActive=true;
else if (key->m_keyChar==controlChar) key->m_isActive=true;
if (key->m_isActive || key->m_isNextKey)
key->paint(painter);
}
}
m_nextKey = nextChar;
}
}
void KTouchKeyboardWidget::paintEvent(TQPaintEvent *) {
if (m_hideKeyboard) return;
TQPainter p(this);
p.translate(m_shift, MARGIN);
// just print all visible keys
for (KTouchBaseKey * key = m_keyList.first(); key; key = m_keyList.next())
key->paint(p);
/* // TODO : later
const KTouchColorScheme& colorScheme = KTouchColorScheme::m_colorSchemes[Prefs::colorScheme()];
for (TQValueVector<KTouchKey>::iterator it = m_keys.begin(); it != m_keys.end(); ++it) {
// determine colors
TQColor textColor;
if (it->m_type == KTouchKey::NORMAL || it->m_type == KTouchKey::FINGER) {
if (is_next_key) {
// mark the key as "next"
p.setBrush( colorScheme.m_backgroundH );
p.setPen( colorScheme.m_frame );
textColor = colorScheme.m_textH;
}
else {
p.setBrush( colorScheme.m_background[m_colorIndex] );
p.setPen( colorScheme.m_frame );
textColor = colorScheme.m_text;
};
}
else {
p.setBrush( colorScheme.m_cBackground );
p.setPen( colorScheme.m_cText );
}
p.setPen(textColor);
p.fillRect(m_xS, m_xS, m_xS, m_xS, p.brush());
p.drawRect(m_xS, m_xS, m_xS, m_xS);
p.setFont( m_font );
p.drawText(it->m_xS, it->m_yS, it->m_wS, it->m_hS,
TQPainter::AlignCenter, m_keyText);
}
*/
// TODO : later copy pre-rendered and pre-scaled characters to screen
}
void KTouchKeyboardWidget::resizeEvent(TQResizeEvent *) {
// kdDebug() << "[KTouchKeyboard::resizeEvent] Window = " << width() << "x" << height() << endl;
// kdDebug() << "[KTouchKeyboard::resizeEvent] Keyboard = " << m_keyboardWidth << "x" << m_keyboardHeight << endl;
double hScale = static_cast<double>(width()-2*MARGIN)/m_keyboardWidth;
double vScale = static_cast<double>(height()-2*MARGIN)/m_keyboardHeight;
double scale = std::max(1.0, std::min(hScale, vScale));
// kdDebug() << "[KTouchKeyboard::resizeEvent] using scale = " << scale << endl;
m_shift = (width() - static_cast<int>(m_keyboardWidth*scale))/2;
for (KTouchBaseKey * key = m_keyList.first(); key; key = m_keyList.next())
key->resize(scale); // resize all keys
for (TQValueVector<KTouchKey>::iterator it = m_keys.begin(); it != m_keys.end(); ++it) {
it->resize(scale); // resize all keys
}
update(); // and finally redraw the keyboard
}
void KTouchKeyboardWidget::createDefaultKeyboard() {
// let's create a default keyboard
int keySpacing = 4;
int keyHeight = 20;
int keyWidth = 20;
int col = keyWidth+keySpacing;
int row = keyHeight+keySpacing;
// first let's create the "visible" keys, that means all keys that will be displayed
// Note: purely decorative keys get a key char code of 0!
m_keyList.clear();
m_keyList.append( new KTouchControlKey( 0, "Num", 0, 0, keyWidth, keyHeight) );
m_keyList.append( new KTouchNormalKey( '/', "/", col, 0, keyWidth, keyHeight) );
m_keyList.append( new KTouchNormalKey( '*', "*", 2*col, 0, keyWidth, keyHeight) );
m_keyList.append( new KTouchNormalKey( '-', "-", 3*col, 0, keyWidth, keyHeight) );
m_keyList.append( new KTouchNormalKey( '7', "7", 0, row, keyWidth, keyHeight) );
m_keyList.append( new KTouchNormalKey( '8', "8", col, row, keyWidth, keyHeight) );
m_keyList.append( new KTouchNormalKey( '9', "9", 2*col, row, keyWidth, keyHeight) );
m_keyList.append( new KTouchFingerKey( '4', "4", 0, 2*row, keyWidth, keyHeight) );
m_keyList.append( new KTouchFingerKey( '5', "5", col, 2*row, keyWidth, keyHeight) );
m_keyList.append( new KTouchFingerKey( '6', "6", 2*col, 2*row, keyWidth, keyHeight) );
m_keyList.append( new KTouchNormalKey( '1', "1", 0, 3*row, keyWidth, keyHeight) );
m_keyList.append( new KTouchNormalKey( '2', "2", col, 3*row, keyWidth, keyHeight) );
m_keyList.append( new KTouchNormalKey( '3', "3", 2*col, 3*row, keyWidth, keyHeight) );
m_keyList.append( new KTouchNormalKey( '0', "0", 0, 4*row, 2*keyWidth+keySpacing, keyHeight) );
m_keyList.append( new KTouchNormalKey( '.', ".", 2*col, 4*row, keyWidth, keyHeight) );
m_keyList.append( new KTouchFingerKey( '+', "+", 3*col, row, keyWidth, 2*keyHeight+keySpacing) );
m_keyList.append( new KTouchControlKey(13, "Enter", 3*col, 3*row,keyWidth, 2*keyHeight+keySpacing) );
m_keyList.append( new KTouchControlKey(8, "BackSpace", 5*col, 0, 2*keyWidth+keySpacing, keyHeight) );
m_keyboardWidth = 7*col;
m_keyboardHeight = 5*row;
// now we need to create the connections between the characters that can be typed and the
// keys that need to be displayed on the keyboard
// The arguments to the constructor are: keychar, targetkey, fingerkey, controlkey
m_connectorList.clear();
m_connectorList.append( KTouchKeyConnection('/', '/', '5', 0) );
m_connectorList.append( KTouchKeyConnection('*', '*', '6', 0) );
m_connectorList.append( KTouchKeyConnection('-', '-', '+', 0) );
m_connectorList.append( KTouchKeyConnection('+', '+', 0, 0) );
m_connectorList.append( KTouchKeyConnection('.', '.', '6', 0) );
m_connectorList.append( KTouchKeyConnection(',', '.', '6', 0) );
m_connectorList.append( KTouchKeyConnection('7', '7', '4', 0) );
m_connectorList.append( KTouchKeyConnection('8', '8', '5', 0) );
m_connectorList.append( KTouchKeyConnection('9', '9', '6', 0) );
m_connectorList.append( KTouchKeyConnection('4', '4', 0, 0) );
m_connectorList.append( KTouchKeyConnection('5', '5', 0, 0) );
m_connectorList.append( KTouchKeyConnection('6', '6', 0, 0) );
m_connectorList.append( KTouchKeyConnection('1', '1', '4', 0) );
m_connectorList.append( KTouchKeyConnection('2', '2', '5', 0) );
m_connectorList.append( KTouchKeyConnection('3', '3', '6', 0) );
m_connectorList.append( KTouchKeyConnection('0', '0', 0, 0) );
m_connectorList.append( KTouchKeyConnection( 8, 8, 0, 0) );
m_connectorList.append( KTouchKeyConnection( 13, 13, '+', 0) );
updateColours();
m_currentLayout="number.keyboard";
// create keyboard geometry for new keyboard data
int sp = 10;
int h = 50;
int w = 50;
col = w+sp;
row = h+sp;
m_keys.clear();
m_keys.append( KTouchKey( 0, 0, w, h, TQString("Num")) ); // 0
m_keys.append( KTouchKey(KTouchKey::NORMAL, col, 0, w, h, '/') ); // 1
m_keys.append( KTouchKey(KTouchKey::NORMAL, 2*col, 0, w, h, '*') ); // 2
m_keys.append( KTouchKey(KTouchKey::NORMAL, 3*col, 0, w, h, '-') ); // 3
m_keys.append( KTouchKey(KTouchKey::NORMAL, 0, row, w, h, '7') ); // 4
m_keys.append( KTouchKey(KTouchKey::NORMAL, col, row, w, h, '8') ); // 5
m_keys.append( KTouchKey(KTouchKey::NORMAL, 2*col, row, w, h, '9') ); // 6
m_keys.append( KTouchKey(KTouchKey::FINGER, 0, 2*row, w, h, '4') ); // 7 ***
m_keys.append( KTouchKey(KTouchKey::FINGER, col, 2*row, w, h, '5') ); // 8 ***
m_keys.append( KTouchKey(KTouchKey::FINGER, 2*col, 2*row, w, h, '6') ); // 9 ***
m_keys.append( KTouchKey(KTouchKey::FINGER, 3*col, row, w, 2*h+sp, '+') ); // 10 ***
m_keys.append( KTouchKey(KTouchKey::NORMAL, 0, 3*row, w, h, '1') ); // 11
m_keys.append( KTouchKey(KTouchKey::NORMAL, col, 3*row, w, h, '2') ); // 12
m_keys.append( KTouchKey(KTouchKey::NORMAL, 2*col, 3*row, w, h, '3') ); // 13
m_keys.append( KTouchKey(KTouchKey::NORMAL, 0, 4*row, 2*w+sp, h, '0') ); // 14
m_keys.append( KTouchKey(KTouchKey::NORMAL, 2*col, 4*row, w, h, '.') ); // 15
m_keys.append( KTouchKey(KTouchKey::ENTER, 3*col, 3*row, w, 2*h+sp, 0) ); // 16
m_keys.append( KTouchKey(KTouchKey::BACKSPACE, 5*col, 0, 2*w+sp, h, 0) ); // 17
// number the keys for reference
for (unsigned int i=0; i<m_keys.size(); ++i)
m_keys[i].m_number = i;
// create key connections
m_keyConnections.clear();
// KTouchKeyConnector(char, target, finger, modifier)
m_keyConnections.append( KTouchKeyConnector('/', 1, 8, 0) );
m_keyConnections.append( KTouchKeyConnector('*', 2, 9, 0) );
m_keyConnections.append( KTouchKeyConnector('-', 3, 10, 0) );
m_keyConnections.append( KTouchKeyConnector('7', 4, 7, 0) );
m_keyConnections.append( KTouchKeyConnector('8', 5, 8, 0) );
m_keyConnections.append( KTouchKeyConnector('9', 6, 9, 0) );
m_keyConnections.append( KTouchKeyConnector('4', 7, 7, 0) ); // ***
m_keyConnections.append( KTouchKeyConnector('5', 8, 8, 0) ); // ***
m_keyConnections.append( KTouchKeyConnector('6', 9, 9, 0) ); // ***
m_keyConnections.append( KTouchKeyConnector('+', 10, 10, 0) ); // ***
m_keyConnections.append( KTouchKeyConnector('1', 11, 7, 0) );
m_keyConnections.append( KTouchKeyConnector('2', 12, 8, 0) );
m_keyConnections.append( KTouchKeyConnector('3', 13, 9, 0) );
m_keyConnections.append( KTouchKeyConnector('0', 14, 7, 0) );
m_keyConnections.append( KTouchKeyConnector('.', 15, 9, 0) );
m_keyConnections.append( KTouchKeyConnector(TQChar(13), 16, 10, 0) );
m_keyConnections.append( KTouchKeyConnector(TQChar(8), 17, 0, 0) );
}
bool KTouchKeyboardWidget::readKeyboard(const TQString& fileName, TQString& errorMsg) {
TQFile infile(fileName);
if ( !infile.open( IO_ReadOnly ) ) {
errorMsg = i18n("Could not open file.");
return false;
}
TQTextStream in( &infile );
in.setEncoding(TQTextStream::UnicodeUTF8);
TQString line;
m_keyList.clear(); // empty the keyboard
m_connectorList.clear(); // clear the connections
m_keyboardWidth=0;
m_keyboardHeight=0;
std::set<TQChar> keys;
// now loop until end of file is reached
do {
// skip all empty lines or lines containing a comment (starting with '#')
do { line = in.readLine().stripWhiteSpace(); }
while (!line.isNull() && (line.isEmpty() || line[0]=='#'));
// Check if end of file encountered and if that is the case -> bail out at next while
if (line.isNull()) continue;
// 'line' should now contain a key specification
TQTextStream lineStream(line, IO_ReadOnly);
TQString keyType;
int keyAscII;
TQString keyText;
int x(0), y(0), w(0), h(0);
lineStream >> keyType >> keyAscII;
if (keyType=="FingerKey") {
lineStream >> keyText >> x >> y >> w >> h;
if (w==0 || h==0)
w=h=8; // default values for old keyboard files
m_keyList.append( new KTouchFingerKey(keyAscII, keyText, x+1, y+1, w, h) );
m_connectorList.append( KTouchKeyConnection(keyAscII, keyAscII, 0, 0) );
// kdDebug() << "read : F : unicode = " << keyAscII << " char = " << TQChar(keyAscII) << endl;
}
else if (keyType=="ControlKey") {
lineStream >> keyText >> x >> y >> w >> h;
m_keyList.append( new KTouchControlKey(keyAscII, keyText, x+1, y+1, w-2, h-2) );
m_connectorList.append( KTouchKeyConnection(keyAscII, keyAscII, 0, 0) );
// kdDebug() << "read : C : unicode = " << keyAscII << " char = " << keyText << endl;
}
else if (keyType=="NormalKey") {
int fingerCharCode;
lineStream >> keyText >> x >> y >> fingerCharCode;
w=h=8; // default values for old keyboard files
// retrieve the finger key with the matching char
m_keyList.append( new KTouchNormalKey(keyAscII, keyText, x+1, y+1, w, h) );
m_connectorList.append( KTouchKeyConnection(keyAscII, keyAscII, fingerCharCode, 0) );
// kdDebug() << "read : N : unicode = " << keyAscII << " char = " << TQChar(keyAscII) << endl;
} else if (keyType=="HiddenKey") {
int targetChar, fingerChar, controlChar;
lineStream >> targetChar >> fingerChar >> controlChar;
m_connectorList.append( KTouchKeyConnection(keyAscII, targetChar, fingerChar, controlChar) );
// kdDebug() << "read : H : unicode = " << keyAscII << " char = " << TQChar(keyAscII) << " target = " << targetChar << " finger = " << fingerChar << " control = " << controlChar << endl;
}
else {
errorMsg = i18n("Missing key type in line '%1'.").arg(line);
return false;
}
if (keys.find(keyAscII)!=keys.end()) {
kdDebug() << "WARNING: Duplicate entry for char '"+keyText+"' with Unicode " << keyAscII << endl;
}
else
keys.insert(keyAscII);
keys.insert(keyAscII);
// calculate the maximum extent of the keyboard on the fly...
m_keyboardWidth = std::max(m_keyboardWidth, x+w);
m_keyboardHeight = std::max(m_keyboardHeight, y+h);
} while (!in.atEnd() && !line.isNull());
// kdDebug() << "showing all unicode numbers in this file" << endl;
/* for (std::set<TQChar>::iterator it = keys.begin(); it != keys.end(); ++it)
kdDebug() << *it << endl;
*/
// kdDebug() << "num chars = " << keys.size() << endl;
// kdDebug() << "num key connections = " << m_connectorList.size() << endl;
updateColours();
return (!m_keyList.isEmpty()); // empty file means error
}
void KTouchKeyboardWidget::updateColours() {
// kdDebug() << "KTouchKeyboardWidget::updateColours()" << endl;
// old functionality : loop over all key connections
m_keyCharMap.clear();
unsigned int counter = 0;
for (TQValueList<KTouchKeyConnection>::iterator it = m_connectorList.begin(); it!=m_connectorList.end(); ++it) {
// store finger and target characters
TQChar fingerChar = (*it).m_fingerKeyChar;
TQChar targetChar = (*it).m_targetKeyChar; // this is the _base_ character of the key that needs to be highlighted
TQChar ch = (*it).m_keyChar;
/* kdDebug() << "Key #"<<++counter<<": " << ch << "(" << ch.unicode() << ") "
<< "target = " << targetChar << "(" << targetChar.unicode() << ") "
<< "finger = " << fingerChar << "(" << fingerChar.unicode() << ")" << endl;
*/
m_keyCharMap[ch] = -1;
if (fingerChar == TQChar(0)) {
// kdDebug() << "skipped char = " << targetChar << endl;
continue; // skips keys that don't have finger keys assigned
}
KTouchBaseKey * self=NULL;
KTouchBaseKey * colorSource=NULL;
// loop over all keys to find the key pointers
for (KTouchBaseKey * key = m_keyList.first(); key; key = m_keyList.next()) {
if (key->m_keyChar==targetChar) self=key;
else if (key->m_keyChar==fingerChar) colorSource=key;
}
// ok, by now we should have found a finger and target char pointer
if (self && colorSource) {
// kdDebug() << "Key " << ++counter << " keychar = " << ch << " target = " << targetChar << " finger = " << fingerChar << endl;
// skip target keys that are actually control, finger or hidden keys
if (self->type()!=KTouchBaseKey::NORMAL_KEY) continue;
// try to downcast to get a normal key pointer
KTouchNormalKey *nk = dynamic_cast<KTouchNormalKey*>(self);
// skip if we couldn't downcast
if (!nk) {
kdDebug() << "Couldn't downcast to normal key for targer char = " << targetChar << endl;
continue;
}
// if our color source is not a valid finger key, skip with a warning
if (colorSource->type()!=KTouchBaseKey::FINGER_KEY) {
kdDebug() << "[KTouchKeyboard::updateColours] Colour source key '" << colorSource->m_keyText
<< "' is not a finger key!" << endl;
continue;
}
// finally store the color code
KTouchFingerKey *fk = dynamic_cast<KTouchFingerKey*>(colorSource);
if (fk) {
nk->m_colorIndex = fk->m_colorIndex;
m_keyCharMap[ch] = fk->m_colorIndex;
// kdDebug() << "char = " << targetChar << " index = " << fk->m_colorIndex << endl;
}
}
}
// kdDebug() << "Colormap has " << m_keyCharMap.count() << " entries" << endl;
/*
// new functionality
m_keyMap.clear();
m_colorMap.clear();
for (unsigned int i=0; i<m_keys.size(); ++i)
m_keyMap[i] = -1;
int c_index = 0;
for (TQValueVector<KTouchKeyConnector>::iterator it = m_keyConnections.begin();
it!=m_keyConnections.end(); ++it)
{
if (it->m_targetKeyIndex == -1) continue;
int n = it->m_targetKeyIndex;
switch (m_keys[n].m_type) {
case KTouchKey::NORMAL : m_keyMap[n] = it->m_fingerKeyIndex; break;
case KTouchKey::FINGER : m_keyMap[n] = it->m_fingerKeyIndex;
m_colorMap[n] = c_index++;
c_index %= 8; break;
default : ;
}
}
*/
}