//=====================================
// slotName
//-------------------------------------
void SCCMonitorDualModel::slotName ( QListBoxItem* item ) {
//=====================================
// check manipulator access
//-------------------------------------
if (! mSaxDesktop ) {
return;
}
//=====================================
// include frequencies
//-------------------------------------
mCDBMonitorData = mSaxDesktop->getCDBMonitorData (
mVendorList->selectedItem()->text(),item->text()
);
mHSpinMin -> setValue ( 30 );
mHSpinMax -> setValue ( 50 );
mVSpinMin -> setValue ( 50 );
mVSpinMax -> setValue ( 60 );
QDictIterator<QString> it (mCDBMonitorData);
for (; it.current(); ++it) {
QString key = it.currentKey();
QString val = *it.current();
if (key == "VertRefresh") {
QStringList tokens = QStringList::split ( "-", val );
mVSpinMin -> setValue ( tokens.first().toInt() );
mVSpinMax -> setValue ( tokens.last().toInt() );
}
if (key == "HorizSync") {
QStringList tokens = QStringList::split ( "-", val );
mHSpinMin -> setValue ( tokens.first().toInt() );
mHSpinMax -> setValue ( tokens.last().toInt() );
}
}
}
//=====================================
// XAccessX reset and switch to Intro
//-------------------------------------
void XAccessX::resetPage (int reload) {
// ...
// this function is called if the xaccess dialog is finished or canceled
// AccessX is an X11 extension which need a seperate configuration file
// which is outside of the normal configuration create via ISaX. Therefore
// we don`t need to serialize any data here
// ---
if (reload == PAGE_RELOAD) {
if (mEnable -> isChecked()) {
QFile* mHandle = new QFile (
"/usr/X11R6/lib/X11/xkb/X0-config.keyboard"
);
if (! mHandle -> open(IO_WriteOnly)) {
log (L_ERROR,
"XAccessX::open failed on: %s -> %s\n",
mHandle->name().ascii(),strerror(errno)
);
}
QString* speed = new QString();
speed -> sprintf (
"%d",mLCD -> intValue()
);
QDict<char> data;
data.insert ("MouseKeysMaxSpeed=" ,
speed->ascii()
);
data.insert ("MouseKeysDelay=" , "40");
data.insert ("MouseKeysInterval=" , "10" );
data.insert ("MouseKeysTimeToMax=", "1000" );
data.insert ("MouseKeysCurve=" , "0" );
data.insert ("Controls+=","MouseKeysAccel");
#if 0
data.insert ("Controls+=",
"MouseKeysAccel + AccessxKeys"
);
data.insert ("Feedback+=",
"SlowKeysPress + SlowKeysAccept + StickyKeys + LatchToLock"
);
#endif
QDictIterator<char> it (data);
for (; it.current(); ++it) {
QString line;
line.sprintf ("%s %s\n",
it.currentKey().ascii(),it.current()
);
mHandle -> writeBlock (
line.ascii(),line.length()
);
}
mHandle -> close();
}
}
if (reload == PAGE_RELOAD) {
slotApply();
}
mStatus -> clear();
slotIntro (mIndex);
XTemplate::resetPage ();
mStack -> raiseWidget (Intro);
}
/** return the maximum resolution in the list of images */
float
GeoImageList::maxResolution()
{
if (!minMaxResUptodate_) {
minRes_ = -1;
maxRes_ = 500;
qDebug("GeoImageList::maxResolution");
QDictIterator < GeoImage > it = QDictIterator < GeoImage > (*this);
for (; it.current(); ++it) {
GeoImage *img = it.current();
qDebug("%s: xres: %f yres: %f",
(img->filename()).latin1(),
img->resolutionX(), img->resolutionY());
float res = it.current()->resolutionX();
if (res > minRes_)
minRes_ = res;
if (res < maxRes_)
maxRes_ = res;
res = it.current()->resolutionY();
if (res > minRes_)
minRes_ = res;
if (res < maxRes_)
maxRes_ = res;
}
minMaxResUptodate_ = true;
}
return maxRes_;
}
bool RKComponent::isValid () {
RK_TRACE (PLUGIN);
for (QDictIterator<RKComponentBase> it (child_map); it.current (); ++it) {
if (!(it.current ()->isSatisfied ())) return false;
}
return true;
}
bool KAccel::setKeyDict( QDict<KKeyEntry> nKeyDict )
{
kdebug(KDEBUG_INFO, 125, "Disconenct and remove");
// Disconnect and remove all items in pAccel
QDictIterator<KKeyEntry> *aKeyIt = new QDictIterator<KKeyEntry>( aKeyDict );
aKeyIt->toFirst();
#define pE aKeyIt->current()
while( pE ) {
QString s;
if ( pE->aAccelId && pE->aCurrentKeyCode ) {
pAccel->disconnectItem( pE->aAccelId, pE->receiver,
pE->member );
pAccel->removeItem( pE->aAccelId );
}
++*aKeyIt;
}
#undef pE
kdebug(KDEBUG_INFO, 125, "Clear the dictionary");
// Clear the dictionary
aKeyDict.clear();
kdebug(KDEBUG_INFO, 125, "Insert new items");
// Insert the new items into the dictionary and reconnect if neccessary
// Note also swap config and current key codes !!!!!!
delete aKeyIt; // tanghus
aKeyIt = new QDictIterator<KKeyEntry>( nKeyDict );
aKeyIt->toFirst();
#define pE aKeyIt->current()
KKeyEntry *pEntry;
while( pE ) {
pEntry = new KKeyEntry;
aKeyDict.insert( aKeyIt->currentKey(), pEntry );
pEntry->aDefaultKeyCode = pE->aDefaultKeyCode;
// Note we write config key code to current key code !!
pEntry->aCurrentKeyCode = pE->aConfigKeyCode;
pEntry->aConfigKeyCode = pE->aConfigKeyCode;
pEntry->bConfigurable = pE->bConfigurable;
pEntry->aAccelId = pE->aAccelId;
pEntry->receiver = pE->receiver;
pEntry->member = pE->member;
pEntry->descr = pE->descr; // tanghus
if ( pEntry->aAccelId && pEntry->aCurrentKeyCode ) {
pAccel->insertItem( pEntry->aCurrentKeyCode, pEntry->aAccelId );
pAccel->connectItem( pEntry->aAccelId, pEntry->receiver,
pEntry->member);
}
++*aKeyIt;
}
#undef pE
delete aKeyIt; // tanghus
return true;
}
bool KGlobalAccel::x11EventFilter( const XEvent *event_ ) {
if ( aKeyDict.isEmpty() ) return false;
if ( event_->type != KeyPress ) return false;
uint mod=event_->xkey.state & (ControlMask | ShiftMask | Mod1Mask);
uint keysym= XKeycodeToKeysym(qt_xdisplay(), event_->xkey.keycode, 0);
debug("Key press event :: mod = %d, sym =%d", mod, keysym );
KKeyEntry *pEntry =0;
const char *action;
QDictIterator<KKeyEntry> *aKeyIt = new QDictIterator<KKeyEntry>( aKeyDict );
aKeyIt->toFirst();
#define pE aKeyIt->current()
while( pE ) { //&&
//( mod != keyToXMod( pE->aCurrentKeyCode )
// || keysym != keyToXSym( pE->aCurrentKeyCode ) ) ) {
int kc = pE->aCurrentKeyCode;
if( mod == keyToXMod( kc ) ) debug("That's the right modifier");
if( keysym == keyToXSym( kc ) ) debug("That's the right symbol");
if ( mod == keyToXMod( kc ) && keysym == keyToXSym( kc ) ) {
//pEntry = pE;
//action = aKeyIt->currentKey();
//break;
debug("Found key in dictionary for action %s", aKeyIt->currentKey());
break;
}
++*aKeyIt;
}
if ( !pE ) {
debug("Null KeyEntry object");
return false;
}
if ( !pE ) {
debug("KeyEntry object not enabled");
return false;
}
debug("KGlobalAccel:: event action %s", aKeyIt->currentKey() );
XAllowEvents(qt_xdisplay(), AsyncKeyboard, CurrentTime);
connect( this, SIGNAL( activated() ), pE->receiver, pE->member->data() );
emit activated();
disconnect( this, SIGNAL( activated() ), pE->receiver, pE->member->data() );
// warning("Signal has been sent!");
return true;
}
bool KGlobalAccel::setKeyDict( QDict<KKeyEntry> nKeyDict )
{
// ungrab all connected and enabled keys
QDictIterator<KKeyEntry> *aKeyIt = new QDictIterator<KKeyEntry>( aKeyDict );
aKeyIt->toFirst();
#define pE aKeyIt->current()
while( pE ) {
QString s;
if ( pE->bEnabled ) {
uint keysym = keyToXSym( pE->aCurrentKeyCode );
uint mod = keyToXMod( pE->aCurrentKeyCode );
ungrabKey( keysym, mod );
}
++*aKeyIt;
}
#undef pE
// Clear the dictionary
aKeyDict.clear();
// Insert the new items into the dictionary and reconnect if neccessary
// Note also swap config and current key codes !!!!!!
aKeyIt = new QDictIterator<KKeyEntry>( nKeyDict );
aKeyIt->toFirst();
#define pE aKeyIt->current()
KKeyEntry *pEntry;
while( pE ) {
pEntry = new KKeyEntry;
aKeyDict.insert( aKeyIt->currentKey(), pEntry );
pEntry->aDefaultKeyCode = pE->aDefaultKeyCode;
// Not we write config key code to current key code !!
pEntry->aCurrentKeyCode = pE->aConfigKeyCode;
pEntry->aConfigKeyCode = pE->aConfigKeyCode;
pEntry->bConfigurable = pE->bConfigurable;
pEntry->aAccelId = pE->aAccelId;
pEntry->receiver = pE->receiver;
pEntry->member = new QString( pE->member->data() );
pEntry->bEnabled = pE->bEnabled;
if ( pEntry->bEnabled ) {
uint keysym = keyToXSym( pEntry->aCurrentKeyCode );
uint mod = keyToXMod( pEntry->aCurrentKeyCode );
grabKey( keysym, mod );
}
++*aKeyIt;
}
#undef pE
return true;
}
//=====================================
// XKeyboard::Layout/Model check
//-------------------------------------
void XKeyboard::validateLayout ( void ) {
// log(L_INFO,"XKeyboard::validateLayout() called\n");
// ...
// this function check if the currently used combination
// of layout and model is valid according to the Keyboard.map
// if not we will provide a warning
// ---
QString XkbModel;
QString XkbLayout;
QDictIterator<char> itModel (mModelHash);
for (; itModel.current(); ++itModel) {
if (QString::fromLocal8Bit(itModel.current()) == mType->currentText()) {
XkbModel = itModel.currentKey();
}
}
// 2) primary XKB layout
QDictIterator<char> itLayout (mLayoutHash);
for (; itLayout.current(); ++itLayout) {
if (QString::fromLocal8Bit(itLayout.current()) == mLayout->currentText()) {
XkbLayout = itLayout.currentKey();
}
}
QString isValid = qx ( VALIDATELAYOUT,STDOUT,2,"%s %s",
XkbModel.ascii(),XkbLayout.ascii()
);
if (! isValid.toInt()) {
setMessage ("noValidLayout");
}
}
//=====================================
// XKeyboard::update all variant lists
//-------------------------------------
void XKeyboard::updateVariants ( void ) {
// log(L_INFO,"XKeyboard::updateVariants() called\n");
// ...
// this function will update the variant lists for the
// primary variant combobox and the additional variant
// combobox. Currently set variants will be resetted
// after the list update
// ---
// 1) Additional Variants...
// ---
mAddVariant -> clear();
QListViewItem* item = mAddView -> selectedItem();
if (item) {
QStringList list = mRules.getVariants (item->text (2));
if (! list.empty()) {
mAddVariant -> insertStringList ( list );
} else {
mAddVariant -> insertItem ("basic");
}
mAddVariant->setCurrentText ("basic");
if ((item->text(3)) && (! item->text(3).isEmpty())) {
mAddVariant -> setCurrentText (item->text(3));
}
}
// 2) Primary Variant...
// ---
int curItem = mVariant -> currentItem();
QString curText = mVariant -> currentText();
mVariant -> clear();
QDictIterator<char> it (mRules.getLayouts());
bool emptyVariantList = true;
for (; it.current(); ++it) {
if (QString::fromLocal8Bit (it.current()) == mLayout->currentText()) {
QStringList list = mRules.getVariants (it.currentKey());
if (! list.empty()) {
mVariant -> insertStringList ( list );
emptyVariantList = false;
} else {
mVariant -> insertItem ("basic");
}
break;
}
}
mVariant->setCurrentText ("basic");
if (! emptyVariantList) {
if (mVariant->text (curItem) == curText) {
mVariant->setCurrentItem (curItem);
}
}
}
void RKComponent::removeFromParent () {
RK_TRACE (PLUGIN);
if (!parentComponent ()) return;
for (QDictIterator<RKComponentBase> it (parentComponent ()->child_map); it.current (); ++it) {
if (it.current () == this) {
QString key = it.currentKey ();
// unfortunately, several items might hvae the same key, and there seems to be no way to selectively remove the current item only.
// however, this function should only ever be called in cases of emergency and to prevent crashes. So we make extra sure to remove the child,
// even if we remove a little more than necessary along the way.
while (parentComponent ()->child_map.remove (key));
return;
}
}
RK_ASSERT (false);
}
//====================================
// getTabletDrivers
//------------------------------------
QList<QString> SaXManipulateTablets::getTabletDrivers (void) {
// .../
//! retrieve a list of supported tablet modules from the
//! TabletModules file
// ----
mCDBTabletDrivers.clear();
if ( ! mCDBTabletModules ) {
mCDBTabletModules = new SaXProcess ();
mCDBTabletModules -> start (CDB_TABLETMODULES);
}
QDict< QDict<QString> > CDBModules=mCDBTabletModules->getTablePointerCDB();
QDictIterator< QDict<QString> > it (CDBModules);
for (; it.current(); ++it) {
mCDBTabletDrivers.append (new QString(it.currentKey()));
}
return mCDBTabletDrivers;
}
//====================================
// getCardDrivers
//------------------------------------
QList<QString> SaXManipulateCard::getCardDrivers ( void ) {
// .../
//! retrieve a list of X11 card driver names. The items
//! if the list can be used to retrieve the coresponding
//! option list using the getCardOptions() method
// ----
mCDBCardDrivers.clear();
if ( ! mCDBCardModules ) {
mCDBCardModules = new SaXProcess ();
mCDBCardModules -> start (CDB_CARDMODULES);
}
QDict< QDict<QString> > CDBModules = mCDBCardModules->getTablePointerCDB();
QDictIterator< QDict<QString> > it (CDBModules);
for (; it.current(); ++it) {
mCDBCardDrivers.append (new QString(it.currentKey()));
}
return mCDBCardDrivers;
}
//====================================
// getCDBPanelList
//------------------------------------
QList<QString> SaXManipulateTouchscreens::getPanelList (void) {
// .../
//! retrieve a list of supported panel groups. Each item
//! contains the vendor and the model in its name separated
//! by a colon
// ----
mCDBPanelList.clear();
if ( ! mCDBPanels ) {
mCDBPanels = new SaXProcess ();
mCDBPanels -> start (CDB_TOUCHERS);
}
QDict< QDict<QString> > CDBData = mCDBPanels -> getTablePointerCDB ();
QDictIterator< QDict<QString> > it (CDBData);
for (; it.current(); ++it) {
mCDBPanelList.append (new QString (it.currentKey()));
}
return mCDBPanelList;
}
//====================================
// getMouseList
//------------------------------------
QList<QString> SaXManipulateMice::getMouseList (void) {
// .../
//! retrieve a list of supported standard mouse groups. Each item
//! contains the vendor and the model in its name separated
//! by a colon
// ----
mCDBMouseList.clear();
if ( ! mCDBMice ) {
mCDBMice = new SaXProcess ();
mCDBMice -> start (CDB_POINTERS);
}
QDict< QDict<QString> > CDBData = mCDBMice -> getTablePointerCDB ();
QDictIterator< QDict<QString> > it (CDBData);
for (; it.current(); ++it) {
mCDBMouseList.append (new QString (it.currentKey()));
}
return mCDBMouseList;
}
void RKComponent::updateEnablednessRecursive () {
RK_TRACE (PLUGIN);
bool enabled;
if (enabledness_property->boolValue ()) {
enabled = ((!parentComponent ()) || (parentComponent ()->isEnabled ()));
} else {
enabled = false;
}
setEnabled (enabled); /* We do this, even if the state *seems* to be unchanged. This is needed, as isEnabled () also returns false, if the parent QWidget is not enabled. However, the parent QWidget may not always be the parent component. */
if (enabled != isEnabled ()) {
for (QDictIterator<RKComponentBase> it (child_map); it.current (); ++it) {
if (it.current ()->isComponent()) {
static_cast<RKComponent*> (it.current ())->updateEnablednessRecursive ();
}
}
}
}
void RKComponent::updateEnablednessRecursive () {
RK_TRACE (PLUGIN);
bool enabled;
if (enabledness_property->boolValue ()) {
enabled = ((!parentComponent ()) || (parentComponent ()->isEnabled ()));
} else {
enabled = false;
}
if (enabled != isEnabled ()) {
setEnabled (enabled);
for (QDictIterator<RKComponentBase> it (child_map); it.current (); ++it) {
if (it.current ()->isComponent()) {
static_cast<RKComponent*> (it.current ())->updateEnablednessRecursive ();
}
}
}
}
//====================================
// merge data into object...
//------------------------------------
void SaXStorage::merge (QList< QDict<QString> > data) {
// .../
//! merge the data records from the list (data) into
//! the corresponding data records of the object. If
//! a record does not exist it will be created
// ----
for (unsigned int n=0;n<data.count();n++) {
QDict<QString>* table = data.at(n);
QDictIterator<QString> it (*table);
if (! table) {
continue;
}
addID (n);
setID (n);
for (; it.current(); ++it) {
setItem (it.currentKey(),*it.current());
}
}
}
//====================================
// getPenData
//------------------------------------
QDict<QString> SaXManipulateTablets::getPenData ( const QString& group ) {
// .../
//! return the pen data dictionary associated with the
//! given CDB group name.
// ----
mCDBTabletData.clear();
if ( ! mCDBPens ) {
mCDBPens = new SaXProcess ();
mCDBPens -> start (CDB_PENS);
}
QDict< QDict<QString> > CDBData = mCDBPens -> getTablePointerCDB ();
QDictIterator< QDict<QString> > it (CDBData);
for (; it.current(); ++it) {
if ( it.currentKey() == group ) {
mCDBTabletData = *it.current();
break;
}
}
return mCDBTabletData;
}
//====================================
// getMouseData
//------------------------------------
QDict<QString> SaXManipulateMice::getMouseData (
const QString& group
) {
// .../
//! return the mouse data dictionary associated with the
//! given CDB group name.
// ----
mCDBMouseData.clear();
if ( ! mCDBMice ) {
mCDBMice = new SaXProcess ();
mCDBMice -> start (CDB_POINTERS);
}
QDict< QDict<QString> > CDBData = mCDBMice -> getTablePointerCDB ();
QDictIterator< QDict<QString> > it (CDBData);
for (; it.current(); ++it) {
if ( it.currentKey() == group ) {
mCDBMouseData = *it.current();
break;
}
}
return mCDBMouseData;
}
void RKComponentBase::fetchPropertyValuesRecursive (QMap<QString, QString> *list, bool include_top_level, const QString &prefix) {
RK_TRACE (PLUGIN);
for (QDictIterator<RKComponentBase> it (child_map); it.current (); ++it) {
if (it.currentKey () != "#noid#") {
if (it.current ()->isProperty ()) {
if (include_top_level) {
list->insert (prefix + it.currentKey (), it.current ()->value ());
}
} else {
it.current ()->fetchPropertyValuesRecursive (list, true, prefix + it.currentKey () + '.');
}
}
}
}
//====================================
// splitImport...
//------------------------------------
void SaXImportProfile::splitImport (void) {
// .../
//! Split the data from the profile into the appropriate
//! ISAX sections. If the section does not exist a new one
//! will be created. Each section can be obtained using the
//! getImport() method. For the profile to take effect it is
//! normally needed to merge this SaXImport objects into the
//! basic imports which are the base for the configuration
//! export: For example
//! \code
//! SaXImport* profile = this->getImport (SAX_CARD);
//! baseImport->merge (profile->getTablePointerDATA());
//! \endcode
// ----
for (int n=0;n < getCount();n++) {
QDict<QString>* table = getTablePointer ( n );
QDictIterator<QString> it (*table);
for (; it.current(); ++it) {
QStringList tokens = QStringList::split ( ":", *it.current() );
QString section = tokens.last();
tokens.pop_back();
QString value = tokens.join(":");
if (section == "Layout") {
if (! mLayout) {
mLayout = new SaXImport (SAX_LAYOUT);
}
mLayout -> addID (n);
mLayout -> setItem (it.currentKey(),value);
}
if (section == "Desktop") {
if (! mDesktop) {
mDesktop = new SaXImport (SAX_DESKTOP);
}
mDesktop -> addID (n);
mDesktop -> setItem (it.currentKey(),value);
}
if (section == "Card") {
if (! mCard) {
mCard = new SaXImport (SAX_CARD);
}
mCard -> addID (n);
mCard -> setItem (it.currentKey(),value);
}
if (section == "Mouse") {
if (! mPointers) {
mPointers = new SaXImport (SAX_POINTERS);
}
mPointers -> addID (n);
mPointers -> setItem (it.currentKey(),value);
}
}
}
}
//=====================================
// XKeyboard apply keyboard
//-------------------------------------
bool XKeyboard::apply ( void ) {
// log(L_INFO,"XKeyboard::apply() called\n");
// ...
// apply the keyboard to the X-Server for immediate
// usage. This call will use the XKB extension
// ---
XWrapPointer< QDict<char> > mText (mTextPtr);
QString* XkbModel = NULL;
QString* XkbLayout = NULL;
QString* XkbVariant = NULL;
QString* XkbOptions = NULL;
// 1) primary XKB model
QDictIterator<char> itModel (mModelHash);
for (; itModel.current(); ++itModel) {
if (QString::fromLocal8Bit (itModel.current()) == mType->currentText()) {
XkbModel = new QString (itModel.currentKey());
}
}
// 2) primary XKB layout
QDictIterator<char> itLayout (mLayoutHash);
for (; itLayout.current(); ++itLayout) {
if (QString::fromLocal8Bit(itLayout.current()) == mLayout->currentText()) {
XkbLayout = new QString (itLayout.currentKey());
}
}
// 3) variant for primary XKB layout
XkbVariant = new QString();
if (mVariant->currentText()) {
*XkbVariant = mVariant->currentText();
}
// 4) additional layout and variant
QListViewItemIterator itAdd (mAddView);
for ( ; itAdd.current(); ++itAdd ) {
QCheckListItem* item = (QCheckListItem*)itAdd.current();
if (item->isOn()) {
QString layout = itAdd.current()->text(2);
QString variant = "";
XkbLayout->sprintf("%s,%s",
XkbLayout->ascii(),layout.ascii()
);
if (itAdd.current()->text(3)) {
variant = itAdd.current()->text(3);
}
XkbVariant->sprintf("%s,%s",
XkbVariant->ascii(),variant.ascii()
);
}
}
// 5) options
if (mKeyboardOptions["XkbOptions"]) {
if (! QString(mKeyboardOptions["XkbOptions"]).isEmpty()) {
XkbOptions = new QString (mKeyboardOptions["XkbOptions"]);
}
}
QString optm ("-model");
QString optl ("-layout");
QString opto ("-option");
QString optv ("-variant");
if ((XkbVariant) && (XkbOptions)) {
#if 0
printf("%s %s %s %s %s %s %s %s\n",
optm.ascii(),XkbModel->ascii(),optl.ascii(),XkbLayout->ascii(),
opto.ascii(),XkbOptions->ascii(),optv.ascii(),XkbVariant->ascii()
);
#endif
#if 1
qx ( SETXKBMAP,STDNONE,8,"%s %s %s %s %s %s %s %s",
optm.ascii(),XkbModel->ascii(),optl.ascii(),XkbLayout->ascii(),
opto.ascii(),XkbOptions->ascii(),optv.ascii(),XkbVariant->ascii()
);
#endif
} else if (XkbVariant) {
#if 0
printf("%s %s %s %s %s %s\n",
optm.ascii(),XkbModel->ascii(),optl.ascii(),XkbLayout->ascii(),
optv.ascii(),XkbVariant->ascii()
);
#endif
#if 1
qx ( SETXKBMAP,STDNONE,8,"%s %s %s %s %s %s",
optm.ascii(),XkbModel->ascii(),optl.ascii(),XkbLayout->ascii(),
optv.ascii(),XkbVariant->ascii()
);
#endif
} else if (XkbOptions) {
#if 0
printf("%s %s %s %s %s %s\n",
optm.ascii(),XkbModel->ascii(),optl.ascii(),XkbLayout->ascii(),
opto.ascii(),XkbOptions->ascii()
);
#endif
#if 1
qx ( SETXKBMAP,STDNONE,8,"%s %s %s %s %s %s",
optm.ascii(),XkbModel->ascii(),optl.ascii(),XkbLayout->ascii(),
opto.ascii(),XkbOptions->ascii()
);
#endif
} else {
#if 0
printf("%s %s %s %s\n",
optm.ascii(),XkbModel->ascii(),optl.ascii(),XkbLayout->ascii()
);
#endif
#if 1
qx ( SETXKBMAP,STDNONE,8,"%s %s %s %s",
optm.ascii(),XkbModel->ascii(),optl.ascii(),XkbLayout->ascii()
);
#endif
}
return (true);
}
//=====================================
// XKeyboard Ok pressed for mTop
//-------------------------------------
void XKeyboard::slotTopOk ( void ) {
// log (L_INFO,"XKeyboard::slotTopOk() called\n");
// ...
// this function is called if you click onto the OK
// button in the setup toplevel window
// ---
XWrapPointer< QDict<char> > mText (mTextPtr);
mFrame -> enterEvent ( 0 );
QString* XkbOptions = NULL;
QString* ScrollLock = NULL;
QString* LeftAlt = NULL;
QString* RightAlt = NULL;
QString* RightCtl = NULL;
for (int i=0;i<=6;i++) {
QString selection = mXkbOption[i]->currentText();
QDictIterator<char> it (mOptionHash);
for (; it.current(); ++it) {
if (QString::fromLocal8Bit (it.current()) == selection) {
selection = it.currentKey();
break;
}
}
if (selection == mText["Default"]) {
selection = "";
}
switch (i) {
case 0:
case 1:
case 6:
if (! XkbOptions) {
XkbOptions = new QString (selection);
} else {
if (XkbOptions->isEmpty()) {
XkbOptions -> sprintf ("%s",selection.ascii());
} else {
XkbOptions -> sprintf ("%s,%s",
XkbOptions->ascii(),selection.ascii()
);
}
}
break;
case 2:
LeftAlt = new QString (selection);
break;
case 3:
RightAlt = new QString (selection);
break;
case 4:
ScrollLock = new QString (selection);
break;
case 5:
RightCtl = new QString (selection);
break;
}
if (XkbOptions) {
if (XkbOptions -> at(XkbOptions->length()-1) == ',') {
XkbOptions -> remove (XkbOptions->length()-1,1);
}
}
}
// ...
// save the values to the working keyboard if
// they are available and valid
// ---
XWrapFile < QDict<XFile> > mFiles (mFilePtr);
XWrapPointer<XData> workingKeyboard (
mFiles["sys_KEYBOARD"]->getDevice (0)
);
if (XkbOptions) {
mKeyboardOptions.insert ("XkbOptions",XkbOptions->ascii());
}
if (LeftAlt) {
mKeyboardOptions.insert ("LeftAlt",LeftAlt->ascii());
}
if (RightAlt) {
mKeyboardOptions.insert ("RightAlt",RightAlt->ascii());
}
if (ScrollLock) {
mKeyboardOptions.insert ("ScrollLock",ScrollLock->ascii());
}
if (RightCtl) {
mKeyboardOptions.insert ("RightCtl",RightCtl->ascii());
}
// ...
// save the values of the auto repeat sliders, if one
// of them has another value than the default value
// ---
if (
(mDelay->value() != XKBDDELAY_DEFAULT) ||
(mRepeat->value() != XKBDRATE_DEFAULT)
) {
QString* autoRepeat = new QString();
autoRepeat->sprintf("%d %d",
mDelay->value(),mRepeat->value()
);
mKeyboardOptions.insert (
"AutoRepeat",autoRepeat->ascii()
);
}
apply();
}
//=====================================
// XTouchScreen slotTopOk...
//-------------------------------------
void XTouchScreen::slotTopOk (void) {
// log (L_INFO,"XTouchScreen::slotTopOk() called\n");
// ...
// this function is called if you click onto the OK
// button in the setup toplevel window
// ---
mFrame -> enterEvent ( 0 );
bool newToucher = false;
switch (mState) {
case TOUCHER_NEW:
if ( ! mIndexList.isEmpty()) {
mWorkingIndex = *mIndexList.at ( touchList->count()-1 );
mWorkingIndex+= 2;
} else {
mWorkingIndex = 1;
}
newToucher = true;
break;
case TOUCHER_SETUP:
mWorkingIndex = *mIndexList.at ( mSelected );
newToucher = false;
break;
}
// ...
// get the mFiles pointer wrapper from the Intro
// object which has read all the data files
// ---
QDict<XFile>* mFilePtr = mIntro->getFiles();
XWrapFile < QDict<XFile> > mFiles (mFilePtr);
// ...
// get the workingToucher pointer wrapper. If a new toucher
// should be added use addDevice to create a new object
// otherwhise get the device according to the selection
// made in touchList and clear the contents
// ---
XWrapPointer<XData> workingToucher;
if (newToucher) {
while (mFiles["sys_INPUT"]->getDevice (mWorkingIndex)) {
mWorkingIndex+= 2;
}
workingToucher.init (
mFiles["sys_INPUT"]->addDevice (mWorkingIndex)
);
} else {
workingToucher.init (
mFiles["sys_INPUT"]->getDevice (mWorkingIndex)
);
}
// ... /
// set the selection data from the CDB if the user requested
// a new toucher from the list. The data set here may be overwritten
// from the manual setup made after the vendor/name selection
// -----
// NOTE:
// -----
// At the time there are not other controls which can influence
// the CDB selection. This means all the configuration data is
// obtained from the CDB files
// ---
// check first if the selection differs from
// the current settings
// ---
bool changeRequest = false;
QString* toucherName = new QString();
toucherName -> sprintf ("%s;%s",
mVendor->currentText().ascii(),mName->currentText().ascii()
);
if (! newToucher) {
if (*toucherName != QString(workingToucher["Name"])) {
changeRequest = true;
}
} else {
changeRequest = true;
}
QDict<char>* spec = NULL;
XDb* pCDB = mFiles["cdb_TOUCHER"]->cdbGetSpec (
mVendor->currentText(),mName->currentText()
);
if ((pCDB) && (changeRequest)) {
spec = pCDB -> getHash();
// ...
// clear the working toucher contents...
// ---
workingToucher.clear();
// ...
// set base items for the touchscreen...
// ---
QString* ident = new QString;
ident -> sprintf ("Mouse[%d]",mWorkingIndex);
workingToucher.setPair ("InputFashion","Touchpanel");
workingToucher.setPair ("Identifier",ident->ascii());
workingToucher.setPair ("Name", toucherName->ascii());
// ...
// set CDB data information...
// ---
QDictIterator<char> it (*spec);
for (; it.current(); ++it) {
QString* key = new QString (it.currentKey());
QString* val = new QString;
val->sprintf("%s",it.current());
if (val->isEmpty()) {
continue;
}
if (*key == "Load") {
// ...
// The load key/value pair must go to the module
// section. Therefore the data record is loaded now
// ---
QString* moduleList = new QString();
XData* workingPath = mFiles["sys_PATH"]->getDevice (0);
moduleList -> sprintf ("%s,%s",
workingPath->operator[]("ModuleLoad"),
val->ascii()
);
workingPath -> setPair ("ModuleLoad",
moduleList->ascii()
);
} else {
workingToucher.setPair (
key->ascii(),val->ascii()
);
}
}
// ...
// check if the card is rotated...
// ---
int rotate = isRotated();
if (rotate > 0) {
QString* degree = new QString();
degree->sprintf("%d",rotate);
workingToucher.setPair (
"Rotation",degree->ascii()
);
}
}
// ...
// add an entry to touchList if a new touchscreen
// should be added to the system. Otherwhise update
// the current entry of the touchList if changed
// ---
if (newToucher) {
if (pCDB) {
QString topic;
XData* sysData = mFiles["sys_INPUT"] -> getDevice(mWorkingIndex);
if (sysData) {
QDict<char> touchInfo = sysData -> getData();
topic.sprintf ("%s %s",
mVendor->currentText().ascii(),mName->currentText().ascii()
);
int* newIndex = (int*) malloc(sizeof(int));
*newIndex = mWorkingIndex;
mIndexList.append (newIndex);
touchList -> insertItem (
QPixmap(PIXINTROTOUCH),topic
);
mSelected = mIndexList.find ( newIndex );
touchList -> setSelected ( mSelected,true );
touchList -> setCurrentItem ( mSelected );
mDel -> setDisabled ( false );
mSetup -> setDisabled ( false );
}
}
} else {
if ((changeRequest) && (pCDB)) {
QString topic;
topic.sprintf ("%s %s",
mVendor->currentText().ascii(),mName->currentText().ascii()
);
touchList -> changeItem (
QPixmap(PIXINTROTOUCH),topic,mSelected
);
}
}
}
//====================================
// remove and reorganize section ID...
//------------------------------------
bool SaXStorage::delID ( int id ) {
// .../
//! remove a data record and adapt the Identifier strings
//! to provide consistency
// ----
if ((! mData.at (id)) || (mData.at(id)->isEmpty())) {
return false;
}
int step = 1;
int type = SAX_DESKTOP_TYPE;
QString ident = *mData.at(id)->find ("Identifier");
if (ident.contains ("Mouse")) {
type = SAX_POINTER_TYPE;
step = 2;
}
if (ident.contains ("Keyboard")) {
type = SAX_KEYBOARD_TYPE;
step = 2;
}
int index = -1;
QListIterator < QDict<QString> > in (mData);
for (; in.current(); ++in) {
index++;
QDict<QString>* data = in.current();
QString* ident = data->find ("Identifier");
if (! ident) {
continue;
}
int curType = SAX_DESKTOP_TYPE;
if (ident->contains("Mouse")) {
curType = SAX_POINTER_TYPE;
}
if (ident->contains("Keyboard")) {
curType = SAX_KEYBOARD_TYPE;
}
if ((data->isEmpty()) || (index <= id) || (curType != type)) {
continue;
}
QString oIDstr;
QString nIDstr;
oIDstr.sprintf ("%d",index);
nIDstr.sprintf ("%d",index - step);
QString mouseIDstr ("Mouse[" + oIDstr +"]");
QString keyboardIDstr ("Keyboard["+ oIDstr +"]");
QString deviceIDstr ("Device[" + oIDstr +"]");
QString monitorIDstr ("Monitor[" + oIDstr +"]");
QString screenIDstr ("Screen[" + oIDstr +"]");
QDictIterator<QString> it (*data);
for (; it.current(); ++it) {
QString val = *it.current();
QString key = it.currentKey();
if (val == mouseIDstr) {
QString* nMouseIDstr = new QString ("Mouse["+nIDstr+"]");
data -> replace (key,nMouseIDstr);
}
if (val == keyboardIDstr) {
QString* nKbdIDstr = new QString ("Keyboard["+nIDstr+"]");
data -> replace (key,nKbdIDstr);
}
if (val == deviceIDstr) {
QString* nDeviceIDstr = new QString ("Device["+nIDstr+"]");
data -> replace (key,nDeviceIDstr);
}
if (val == monitorIDstr) {
QString* nMonitorIDstr = new QString ("Monitor["+nIDstr+"]");
data -> replace (key,nMonitorIDstr);
}
if (val == screenIDstr) {
QString* nScreenIDstr = new QString ("Screen["+nIDstr+"]");
data -> replace (key,nScreenIDstr);
}
if ((key == "Screen") && (val == oIDstr)) {
QString* nScreenIDstr = new QString (nIDstr);
data -> replace (key,nScreenIDstr);
}
}
}
mData.remove (id);
if ((mData.at(id)) && (mData.at(id)->isEmpty())) {
mData.remove (id);
}
return true;
}
//====================================
// exportData
//------------------------------------
bool SCCMonitor::exportData ( void ) {
int card = 0;
//====================================
// save particular monitor data
//------------------------------------
QListIterator<SCCMonitorDisplay> it (mMonitorDisplay);
for (; it.current() ; ++it) {
//====================================
// remove current layout
//------------------------------------
if ( mMonitorArrange ) {
QString screenID;
QTextOStream (&screenID) << "Screen:Screen[" << card << "]";
mSection["Layout"]->removeEntry( screenID );
}
//====================================
// check for monitor display's
//------------------------------------
SCCMonitorDisplay* display = (SCCMonitorDisplay*)it.current();
//if (display->isEnabled()) {
//====================================
// create manipulators...
//------------------------------------
SaXManipulateCard saxCard (
mSection["Card"]
);
SaXManipulateDesktop saxDesktop (
mSection["Desktop"],mSection["Card"],mSection["Path"]
);
//====================================
// select card and desktop
//------------------------------------
saxDesktop.selectDesktop ( card );
saxCard.selectCard ( card );
//====================================
// save resolution list
//------------------------------------
int colorDepths[4] = {8,15,16,24};
for (int n=0;n<4;n++) {
int color = colorDepths[n];
QString modesKey;
QTextOStream (&modesKey) << "Modes:" << color;
mSection["Desktop"] -> removeEntry ( modesKey );
QList<QString> resList = display->getResolution();
QListIterator<QString> it ( resList );
for (; it.current(); ++it) {
QStringList tokens = QStringList::split ( "x",*it.current() );
int xaxis = tokens.first().toInt();
int yaxis = tokens.last().toInt();
saxDesktop.addResolution (
color,xaxis,yaxis
);
}
}
//====================================
// save monitor settings
//------------------------------------
SCCMonitorModel* monitorData = display->getMonitorData();
saxDesktop.setMonitorVendor (monitorData->getVendorName());
saxDesktop.setMonitorName (monitorData->getModelName());
saxDesktop.setHsyncRange (
(double)monitorData->getHSmin(),
(double)monitorData->getHSmax()
);
saxDesktop.setVsyncRange (
(double)monitorData->getVSmin(),
(double)monitorData->getVSmax()
);
int sizeX = monitorData->getSizeX();
int sizeY = monitorData->getSizeY();
if ((sizeX > 0) && (sizeY > 0)) {
saxDesktop.setDisplaySize ( sizeX,sizeY );
}
saxDesktop.disableDPMS();
if (monitorData->isDPMSEnabled()) {
saxDesktop.enableDPMS();
}
QString algorithm = saxDesktop.getModelineAlgorithm();
if (algorithm != "XServerPool") {
saxDesktop.calculateModelines ( true );
}
//====================================
// save card options
//------------------------------------
SCCMonitorCard* cardData = display->getCardData();
QDict<QString> optList = cardData->getOptions();
mSection["Card"] -> removeEntry ("Option");
mSection["Card"] -> removeEntry ("RawData");
QDictIterator<QString> io (optList);
for (; io.current(); ++io) {
saxCard.addCardOption ( io.currentKey(),*io.current());
}
int rotateID = cardData->getRotate();
mSection["Card"] -> removeEntry ("Rotate");
saxCard.setRotate ( rotateID );
//====================================
// check for dual head mode
//------------------------------------
QString profile = saxDesktop.getDualHeadProfile();
if ((! profile.isEmpty()) && (! saxDesktop.isXineramaMode())) {
SaXImportProfile* pProfile = SaXWidgetProfile->getProfile (profile);
SaXImport* mImport = pProfile -> getImport ( SAX_CARD );
if ( mImport ) {
//====================================
// pick up card profile data
//------------------------------------
QString driver = saxCard.getCardDriver();
QDict<QString> profileDriverOptions;
SaXManipulateCard saxProfileCard ( mImport );
profileDriverOptions = saxProfileCard.getOptions();
QDictIterator<QString> it ( profileDriverOptions );
//====================================
// delete profile data keys
//------------------------------------
for (; it.current(); ++it) {
saxCard.removeCardOption (it.currentKey());
}
#if 1 // to be removed as soon as possible
//====================================
// fix broken cards
//------------------------------------
fixBrokenCards (saxCard);
#endif
//====================================
// init special modelines
//------------------------------------
//mSection["Desktop"] -> removeEntry ("SpecialModeline");
saxDesktop.setExtraModelineString (
monitorData->getExtraModeline()
);
//====================================
// setup profile data
//------------------------------------
if (display->isDualModeEnabled()) {
it.toFirst();
SCCMonitorDual* dualData;
SCCMonitorDualModel* dualModel;
dualData = display->getDualData();
dualModel = dualData->getDualModelData();
//====================================
// call ok slot from dualhead setup
//------------------------------------
dualData->slotOk();
//====================================
// setup dualhead options
//------------------------------------
saxCard.addCardOption ("SaXDualHead",0);
for (; it.current(); ++it) {
QString key = it.currentKey();
QString val = *it.current();
//====================================
// setup profile "off"-line data
//------------------------------------
if (val == "off") {
saxCard.addCardOption ( key,val );
continue;
}
//====================================
// setup profile meta data
//------------------------------------
if (key == "SaXDualMonitorVendor") {
QString vendor = dualModel ->getVendorName();
saxCard.addCardOption ( key,vendor );
}
if (key == "SaXDualMonitorModel") {
QString model = dualModel ->getModelName();
saxCard.addCardOption ( key,model );
}
if (key == "SaXDualResolution") {
QString resolution = dualData->getResolution();
saxCard.addCardOption ( key,resolution );
}
if (key == "SaXDualOrientation") {
int orientation = dualData->getLayout();
QString position = DUAL_LEFTOF_KEY;
switch (orientation) {
case DUAL_ABOVEOF:
position = DUAL_ABOVEOF_KEY;
break;
case DUAL_RIGHTOF:
position = DUAL_RIGHTOF_KEY;
break;
case DUAL_BELOWOF:
position = DUAL_BELOWOF_KEY;
break;
default:
break;
}
saxCard.addCardOption ( key,position );
}
if (key == "SaXDualMode") {
int mode = dualData->getMode();
QString dualMode = DUAL_TRADITIONAL_KEY;
switch (mode) {
case DUAL_CLONE:
dualMode = DUAL_CLONE_KEY;
break;
case DUAL_XINERAMA:
dualMode = DUAL_XINERAMA_KEY;
break;
default:
break;
}
saxCard.addCardOption ( key,dualMode );
}
if (key == "SaXDualHSync") {
QString hsync;
int hsmax = dualModel->getHSmax();
int hsmin = dualModel->getHSmin();
QTextOStream (&hsync) << hsmin << "-" << hsmax;
saxCard.addCardOption ( key,hsync );
}
if (key == "SaXDualVSync") {
QString vsync;
int hsmax = dualModel->getHSmax();
int vsmax = dualModel->getVSmax();
int vsmin = dualModel->getVSmin();
QTextOStream (&vsync) << vsmin << "-" << vsmax;
saxCard.addCardOption ( key,vsync );
//====================================
// calculate one modeline for each res
//------------------------------------
QString algorithm=saxDesktop.getModelineAlgorithm();
if (algorithm != "XServerPool") {
QList<QString> rList;
rList=dualData->getResolutionList();
QListIterator<QString> ir (rList);
for (; ir.current(); ++ir) {
QStringList xy = QStringList::split (
"x",*ir.current()
);
int x = xy.first().toInt();
int y = xy.last().toInt();
log (L_INFO,
"Add special mode: %dx%d@%d\n",x,y,vsmax
);
saxDesktop.addExtraModeline (
x,y,vsmax,hsmax
);
}
}
}
//====================================
// setup profile NVidia data
//------------------------------------
if (key == "TwinView") {
saxCard.addCardOption ( key,0 );
}
if (key == "ConnectedMonitor") {
QStringList cs = QStringList::split (",",val);
QString channelA = cs.first();
QString channelB = cs.last();
if ((channelA == "AUTO") || (channelB == "AUTO")) {
saxCard.removeCardOption ( key );
} else {
saxCard.addCardOption ( key,val );
}
}
if ((key== "MetaModes") && (driver == "nvidia")) {
QString channelA = "AUTO:";
QString channelB = "AUTO:";
if (profileDriverOptions["ConnectedMonitor"]) {
QStringList cs = QStringList::split (",",
*profileDriverOptions["ConnectedMonitor"]
);
channelA = cs.first() + ":";
channelB = cs.last() + ":";
}
if ((channelA=="AUTO:") || (channelB=="AUTO:")) {
channelA = "";
channelB = "";
}
QList<QString> rList1=display->getResolution();
QString resolution1 = *rList1.at(0);
QList<QString> rList2=dualData->getResolutionList();
QString resolution2 = *rList2.at(0);
//====================================
// add primary meta mode
//------------------------------------
QString metaItem;
QString resolution;
QTextOStream (&metaItem) <<
channelA << resolution1 << "," <<
channelB << resolution2;
resolution.append (";"+metaItem);
//====================================
// add secondary meta modes
//------------------------------------
bool startMeta = false;
QListIterator<QString> ir (rList1);
for (; ir.current(); ++ir) {
if (! startMeta) {
startMeta = true; continue;
}
QString metaItem;
int cmpr = compareResolution (
*ir.current(),resolution2
);
if (cmpr >= 0) {
QTextOStream (&metaItem) <<
channelA << *ir.current() << "," <<
channelB << resolution2;
} else {
QTextOStream (&metaItem) <<
channelA << *ir.current() << "," <<
channelB << *ir.current();
}
resolution.append (";"+metaItem);
}
resolution.replace(QRegExp("^;"),"");
saxCard.addCardOption ( key,resolution );
}
if (key == "SecondMonitorHorizSync") {
QString hsync;
int hsmax = dualModel->getHSmax();
int hsmin = dualModel->getHSmin();
QTextOStream (&hsync) << hsmin << "-" << hsmax;
saxCard.addCardOption ( key,hsync );
}
if (key == "SecondMonitorVertRefresh") {
QString vsync;
int vsmax = dualModel->getVSmax();
int vsmin = dualModel->getVSmin();
QTextOStream (&vsync) << vsmin << "-" << vsmax;
saxCard.addCardOption ( key,vsync );
}
if (key == "TwinViewOrientation") {
int orientation = dualData->getLayout();
QString position = DUAL_LEFTOF_KEY;
switch (orientation) {
case DUAL_ABOVEOF:
position = DUAL_ABOVEOF_KEY;
break;
case DUAL_RIGHTOF:
position = DUAL_RIGHTOF_KEY;
break;
case DUAL_BELOWOF:
position = DUAL_BELOWOF_KEY;
break;
default:
break;
}
saxCard.addCardOption ( key,position );
int mode = dualData->getMode();
if ( mode == DUAL_CLONE ) {
saxCard.removeCardOption (key);
saxCard.addCardOption (key,DUAL_CLONE_KEY);
}
}
//====================================
// setup profile Matrox data
//------------------------------------
if ((key == "MergedFB") && (driver == "mga")) {
saxCard.addCardOption ( key,0 );
}
if (key == "Monitor2HSync") {
QString hsync;
int hsmax = dualModel->getHSmax();
int hsmin = dualModel->getHSmin();
QTextOStream (&hsync) << hsmin << "-" << hsmax;
saxCard.addCardOption ( key,hsync );
}
if (key == "Monitor2VRefresh") {
QString vsync;
int vsmax = dualModel->getVSmax();
int vsmin = dualModel->getVSmin();
QTextOStream (&vsync) << vsmin << "-" << vsmax;
saxCard.addCardOption ( key,vsync );
}
if ((key== "MetaModes") && (driver == "mga")) {
QList<QString> rList1=display->getResolution();
QString resolution1 = *rList1.at(0);
QList<QString> rList2=dualData->getResolutionList();
QString resolution2 = *rList2.at(0);
//====================================
// add primary meta mode
//------------------------------------
QString metaItem;
QTextOStream (&metaItem) <<
resolution1 << "-" << resolution2;
saxCard.addCardOption ( key,metaItem );
//====================================
// add virtual size
//------------------------------------
for (int color=8;color<=24;color+=8) {
saxDesktop.removeVirtualResolution (color);
}
int mode = dualData->getMode();
if ( mode != DUAL_CLONE ) {
QStringList r1 = QStringList::split (
"x",resolution1
);
QStringList r2 = QStringList::split (
"x",resolution2
);
int x1 = r1.first().toInt();
int y1 = r1.last().toInt();
int x2 = r2.first().toInt();
int y2 = r2.last().toInt();
int orientation = dualData->getLayout();
int x = 0;
int y = 0;
switch (orientation) {
case DUAL_ABOVEOF:
case DUAL_BELOWOF:
y = y1 + y2;
if (x1 > x2) x = x1; else x = x2;
break;
case DUAL_RIGHTOF:
case DUAL_LEFTOF:
x = x1 + x2;
if (y1 > y2) y = y1; else y = y2;
break;
default:
break;
}
for (int color=8;color<=24;color+=8) {
saxDesktop.setVirtualResolution (color,x,y);
}
}
}
if (key == "Monitor2Position") {
int orientation = dualData->getLayout();
QString position = DUAL_LEFTOF_KEY;
switch (orientation) {
case DUAL_ABOVEOF:
position = DUAL_ABOVEOF_KEY;
break;
case DUAL_RIGHTOF:
position = DUAL_RIGHTOF_KEY;
break;
case DUAL_BELOWOF:
position = DUAL_BELOWOF_KEY;
break;
default:
break;
}
saxCard.addCardOption ( key,position );
int mode = dualData->getMode();
if ( mode == DUAL_CLONE ) {
saxCard.removeCardOption (key);
saxCard.addCardOption (key,DUAL_CLONE_KEY);
}
}
//====================================
// setup profile Radeon data
//------------------------------------
if (key == "MergedFB") {
saxCard.addCardOption ( key,0 );
}
if (key == "CRT2HSync") {
QString hsync;
int hsmax = dualModel->getHSmax();
int hsmin = dualModel->getHSmin();
QTextOStream (&hsync) << hsmin << "-" << hsmax;
saxCard.addCardOption ( key,hsync );
}
if (key == "CRT2VRefresh") {
QString vsync;
int vsmax = dualModel->getVSmax();
int vsmin = dualModel->getVSmin();
QTextOStream (&vsync) << vsmin << "-" << vsmax;
saxCard.addCardOption ( key,vsync );
}
if (key == "IgnoreEDID") {
saxCard.addCardOption ( key,0 );
}
if ((key== "MetaModes") && (driver == "radeon")) {
QList<QString> rList1=display->getResolution();
QString resolution1 = *rList1.at(0);
QList<QString> rList2=dualData->getResolutionList();
QString resolution2 = *rList2.at(0);
//====================================
// add primary meta mode
//------------------------------------
QString metaItem;
QString resolution;
QTextOStream (&metaItem) <<
resolution1 << "," << resolution2;
resolution.append (";"+metaItem);
//====================================
// add secondary meta modes
//------------------------------------
bool startMeta = false;
QListIterator<QString> ir (rList1);
for (; ir.current(); ++ir) {
if (! startMeta) {
startMeta = true; continue;
}
QString metaItem;
int cmpr = compareResolution (
*ir.current(),resolution2
);
if (cmpr >= 0) {
QTextOStream (&metaItem) <<
*ir.current() << "," << resolution2;
} else {
QTextOStream (&metaItem) <<
*ir.current() << "," << *ir.current();
}
resolution.append (";"+metaItem);
}
resolution.replace(QRegExp("^;"),"");
saxCard.addCardOption ( key,resolution );
}
if (key == "CRT2Position") {
int orientation = dualData->getLayout();
QString position = DUAL_LEFTOF_KEY;
switch (orientation) {
case DUAL_ABOVEOF:
position = DUAL_ABOVEOF_KEY;
break;
case DUAL_RIGHTOF:
position = DUAL_RIGHTOF_KEY;
break;
case DUAL_BELOWOF:
position = DUAL_BELOWOF_KEY;
break;
default:
break;
}
saxCard.addCardOption ( key,position );
int mode = dualData->getMode();
if ( mode == DUAL_CLONE ) {
saxCard.removeCardOption (key);
saxCard.addCardOption (key,DUAL_CLONE_KEY);
}
}
//====================================
// setup profile Intel data
//------------------------------------
if ((key== "MonitorLayout") && (driver == "i810")) {
saxCard.addCardOption ( key,val );
}
if (key == "Clone") {
saxCard.addCardOption ( key,0 );
}
if (key == "CloneRefresh") {
QString vsync;
int vsmax = dualModel->getVSmax();
int vsmin = dualModel->getVSmin();
QTextOStream (&vsync) << vsmin << "-" << vsmax;
saxCard.addCardOption ( key,vsync );
}
//====================================
// setup profile FGLRX data
//------------------------------------
if (key== "ForceMonitors") {
saxCard.addCardOption ( key,val );
}
if (key == "DesktopSetup") {
int orientation = dualData->getLayout();
QString position = DUAL_FGLRX_LEFTOF_KEY;
switch (orientation) {
case DUAL_ABOVEOF:
position = DUAL_FGLRX_ABOVEOF_KEY;
break;
case DUAL_RIGHTOF:
position = DUAL_FGLRX_RIGHTOF_KEY;
break;
case DUAL_BELOWOF:
position = DUAL_FGLRX_BELOWOF_KEY;
break;
default:
break;
}
saxCard.addCardOption ( key,position );
int mode = dualData->getMode();
if ( mode == DUAL_CLONE ) {
saxCard.removeCardOption (key);
saxCard.addCardOption (key,DUAL_CLONE_KEY);
}
}
if (key == "HSync2") {
QString hsync;
int hsmax = dualModel->getHSmax();
int hsmin = dualModel->getHSmin();
QTextOStream (&hsync) << hsmin << "-" << hsmax;
saxCard.addCardOption ( key,hsync );
}
if (key == "VRefresh2") {
QString vsync;
int vsmax = dualModel->getVSmax();
int vsmin = dualModel->getVSmin();
QTextOStream (&vsync) << vsmin << "-" << vsmax;
saxCard.addCardOption ( key,vsync );
}
if (key == "Mode2") {
QString resolution;
QList<QString> rList2=dualData->getResolutionList();
QListIterator<QString> ir (rList2);
for (; ir.current(); ++ir) {
resolution.append(","+*ir.current());
}
resolution.replace(QRegExp("^,"),"");
saxCard.addCardOption ( key,resolution );
}
}
}
}
}
//}
card++;
}
//====================================
// save arrangement
//------------------------------------
if ( mMonitorArrange ) {
//====================================
// create manipulators...
//------------------------------------
SaXManipulateLayout saxLayout (
mSection["Layout"],mSection["Card"]
);
//====================================
// save multihead state
//------------------------------------
int multiheadMode = mMonitorArrange->getMultiheadMode();
switch (multiheadMode) {
case 0:
saxLayout.setXOrgMultiheadMode ( SAX_TRADITIONAL );
break;
case 1:
saxLayout.setXOrgMultiheadMode ( SAX_CLONE );
break;
case 2:
saxLayout.setXOrgMultiheadMode ( SAX_XINERAMA );
break;
default:
break;
};
//====================================
// save XOrg layout
//------------------------------------
QDict<QString> arrangeDict = mMonitorArrange->getArrangement();
QDictIterator<QString> it (arrangeDict);
for (; it.current(); ++it) {
QString item (it.currentKey());
item.replace (QRegExp("Screen:Screen\\["),"");
item.replace (QRegExp("\\]"),"");
int index = item.toInt();
int count = 0;
int left=-1,right=-1,above=-1,below=-1;
QStringList tokens = QStringList::split (" ", *it.current());
for (QStringList::Iterator it=tokens.begin();it!=tokens.end();++it){
QString value (*it);
int id = -1;
if (value != "<none>") {
value.replace (QRegExp("Screen\\["),"");
value.replace (QRegExp("\\]"),"");
id = value.toInt();
}
switch (count) {
case 0: left = id; break;
case 1: right = id; break;
case 2: above = id; break;
case 3: below = id; break;
default:
break;
}
count++;
}
saxLayout.setXOrgLayout (
index,left,right,above,below
);
}
}
//====================================
// save 3D status
//------------------------------------
SaXManipulateDesktop saxDesktop (
mSection["Desktop"],mSection["Card"],mSection["Path"]
);
saxDesktop.disable3D();
if (mCheck3D->isChecked()) {
saxDesktop.enable3D();
}
//====================================
// save default color depth
//------------------------------------
it.toFirst(); card = 0;
for (; it.current() ; ++it) {
SCCMonitorDisplay* display = (SCCMonitorDisplay*)it.current();
SaXManipulateDesktop saxDesktop (
mSection["Desktop"],mSection["Card"],mSection["Path"]
);
SaXManipulateCard saxCard (
mSection["Card"]
);
saxDesktop.selectDesktop ( card );
saxCard.selectCard ( card );
if (saxCard.getCardDriver() != "fbdev") {
saxDesktop.setColorDepth ( display->getColorDepth() );
}
card++;
}
return true;
}
//====================================
// exportData
//------------------------------------
bool SCCTablet::exportData ( void ) {
//====================================
// create manipulators...
//------------------------------------
SaXManipulateTablets saxTablet (
mSection["Pointers"],mSection["Layout"]
);
SaXManipulateDevices saxDevice (
mSection["Pointers"],mSection["Layout"]
);
//====================================
// search and remove tablet
//------------------------------------
int inputCount = mSection["Pointers"]->getCount();
for (int i=inputCount;i>=0;i--) {
if (saxTablet.selectPointer (i)) {
if (saxTablet.isTablet()) {
saxDevice.removeInputDevice (i);
}
if (saxTablet.isPen()) {
saxDevice.removeInputDevice (i);
}
if (saxTablet.isEraser()) {
saxDevice.removeInputDevice (i);
}
}
}
//====================================
// add tablet if enabled
//------------------------------------
if (mTabletSelection->isEnabled()) {
QString vendor = mTabletSelection->getVendor();
QString model = mTabletSelection->getModel();
if (! model.isEmpty()) {
int tabletID = saxDevice.addInputDevice (SAX_INPUT_TABLET);
saxTablet.selectPointer ( tabletID );
saxTablet.setTablet ( vendor,model );
QDict<QString> tabletDict = saxTablet.getTabletData (
vendor,model
);
//====================================
// save tablet connection port
//------------------------------------
if (! mTabletConnection->isAutoPort()) {
QString port = mTabletConnection->getPortName();
if (port.contains ("ttyS0")) {
saxTablet.setDevice ( "/dev/ttyS0" );
}
if (port.contains ("ttyS1")) {
saxTablet.setDevice ( "/dev/ttyS1" );
}
if (port.contains ("USB")) {
QProcess* proc = new QProcess ();
proc -> addArgument ( USB_PORT );
if (proc -> start()) {
while (proc->isRunning()) {
usleep (1000);
}
QByteArray data = proc->readStdout();
QStringList lines = QStringList::split ("\n",data);
saxTablet.setDevice ( lines.first() );
}
}
}
//====================================
// save tablet options
//------------------------------------
QString driver = saxTablet.getDriver();
QDict<QString> allOptions = saxTablet.getTabletOptions ( driver );
QDictIterator<QString> it (allOptions);
for (; it.current(); ++it) {
saxTablet.removeOption (it.currentKey());
}
QDict<QString> tabletOptions = mTabletConnection->getOptions();
QDictIterator<QString> io (tabletOptions);
for (; io.current(); ++io) {
saxTablet.addOption (io.currentKey(),*io.current());
}
//====================================
// save tablet mode
//------------------------------------
int mode = mTabletConnection->getTabletMode();
if (mode == 0) {
saxTablet.setMode ("Relative");
} else {
saxTablet.setMode ("Absolute");
}
int sticks[2] = {-1,-1};
//====================================
// handle Tablet Pen
//------------------------------------
if (mTabletPens->hasPen()) {
QString penLink = *tabletDict["StylusLink"];
sticks[0] = saxTablet.addPen ( vendor,penLink );
}
//====================================
// handle Tablet Eraser
//------------------------------------
if (mTabletPens->hasEraser()) {
QString eraserLink = *tabletDict["EraserLink"];
sticks[1] = saxTablet.addPen ( vendor,eraserLink );
}
//====================================
// save pen/eraser data
//------------------------------------
for (int n=0;n<2;n++) {
if (sticks[n] > 0) {
SCCTabletPenProperty* pen = 0;
switch (n) {
case 0: pen = mTabletPens->getPenPropertyData(); break;
case 1: pen = mTabletPens->getEraserPropertyData(); break;
}
//====================================
// create manipulators...
//------------------------------------
SaXManipulateTablets saxPen (
mSection["Pointers"],mSection["Layout"]
);
saxPen.selectPointer ( sticks[n] );
//====================================
// save pen's mode
//------------------------------------
int mode = pen->getPenMode();
if (mode == 0) {
saxPen.setMode ("Relative");
} else {
saxPen.setMode ("Absolute");
}
//====================================
// save pen's options
//------------------------------------
QString driver = saxTablet.getDriver();
QDict<QString> allOptions = saxTablet.getTabletOptions (driver);
QDictIterator<QString> it (allOptions);
for (; it.current(); ++it) {
saxPen.removeOption (it.currentKey());
}
QDict<QString> penOptions = pen->getPenOptions();
QDictIterator<QString> io (penOptions);
for (; io.current(); ++io) {
saxPen.addOption (io.currentKey(),*io.current());
}
//====================================
// save pen's device
//------------------------------------
saxTablet.selectPointer ( tabletID );
QString device = saxTablet.getDevice();
saxPen.selectPointer ( sticks[n] );
saxPen.setDevice (device);
}
}
}
}
return true;
}
//=====================================
// XMouse slotTopOk...
//-------------------------------------
void XMouse::slotTopOk (void) {
// log (L_INFO,"XMouse::slotTopOk() called\n");
// ...
// this function is called if you click onto the OK
// button in the setup toplevel window
// ---
mFrame -> enterEvent ( 0 );
bool newMouse = false;
switch (mState) {
case MOUSE_NEW:
if (mouseList->count() > 0) {
mWorkingIndex = *mIndexList.at(mouseList->count()-1);
mWorkingIndex+= 2;
} else {
mWorkingIndex = 1;
}
newMouse = true;
break;
case MOUSE_SETUP:
mWorkingIndex = *mIndexList.at(mSelected);
newMouse = false;
break;
}
// ...
// create the text pointer wrapper object and
// get the mFiles pointer wrapper from the Intro
// object which has read all the data files
// ---
XWrapPointer< QDict<char> > mText (mTextPtr);
QDict<XFile>* mFilePtr = mIntro->getFiles();
XWrapFile < QDict<XFile> > mFiles (mFilePtr);
// ...
// get the workingMouse pointer wrapper. If a new mouse
// should be added use addDevice to create a new object
// otherwhise get the device according to the selection
// made in mouseList and clear the contents
// ---
XWrapPointer<XData> workingMouse;
if (newMouse) {
while (mFiles["sys_INPUT"]->getDevice (mWorkingIndex)) {
mWorkingIndex+= 2;
}
workingMouse.init (
mFiles["sys_INPUT"]->addDevice (mWorkingIndex)
);
} else {
workingMouse.init (
mFiles["sys_INPUT"]->getDevice (mWorkingIndex)
);
}
// ...
// set the selection data from the CDB if the user requested
// a new mouse from the list. The data set here may be overwritten
// from the manual setup made after the vendor/name selection
// ---
// check first if the selection differs from
// the current settings
// ---
bool changeRequest = false;
QString* mouseName = new QString();
mouseName -> sprintf ("%s;%s",
mVendor->currentText().ascii(),mName->currentText().ascii()
);
if (! newMouse) {
if (*mouseName != QString(workingMouse["Name"])) {
changeRequest = true;
}
} else {
changeRequest = true;
}
QDict<char>* spec = NULL;
XDb* pCDB = mFiles["cdb_POINTER"]->cdbGetSpec (
mVendor->currentText(),mName->currentText()
);
if ((pCDB) && (changeRequest)) {
spec = pCDB -> getHash();
// ...
// clear the working mouse contents...
// ---
workingMouse.clear();
// ...
// set base items for the mouse...
// ---
QString* ident = new QString;
ident -> sprintf ("Mouse[%d]",mWorkingIndex);
workingMouse.setPair ("InputFashion","Mouse");
workingMouse.setPair ("Identifier",ident->ascii());
workingMouse.setPair ("Name", mouseName->ascii());
// ...
// set CDB data information...
// ---
QDictIterator<char> it (*spec);
for (; it.current(); ++it) {
QString* key = new QString (it.currentKey());
QString* val = new QString;
val->sprintf("%s",it.current());
if (val->isEmpty()) {
continue;
}
workingMouse.setPair (
key->ascii(),val->ascii()
);
}
}
// ...
// handle manual setup parameters outside the CDB vendor/name
// selection: Port setup and special features like
// Wheel, WheelEmulation and ButtonEmulation
// ---
// Port
QString* currentPort = new QString (mPort -> currentText());
workingMouse.setPair ("Device",
currentPort->ascii()
);
// Emulate3Buttons
workingMouse.setPair ("Emulate3Buttons","no");
if (mCheckEmulate -> isChecked()) {
workingMouse.setPair ("Emulate3Buttons","on");
}
// Wheel
workingMouse.setPair ("ZAxisMapping","off");
if (mCheckWheel -> isChecked()) {
workingMouse.setPair (
"ZAxisMapping","4 5"
);
if ( spec ) {
XWrapPointer< QDict<char> > selectedMouse ( spec );
if (selectedMouse["ZAxisMapping"]) {
QString* zmap = new QString(
selectedMouse["ZAxisMapping"]
);
workingMouse.setPair (
"ZAxisMapping",zmap->ascii()
);
}
}
}
// Emulate Wheel
workingMouse.setPair ("EmulateWheel","no");
if (mCheckWheelEmu -> isChecked()) {
QString* button = new QString(mWheelKey->text());
workingMouse.setPair ("EmulateWheel",button->ascii());
}
// ...
// add an entry to mouseList if a new mouse
// should be added to the system. Otherwhise update
// the current entry of the mouseList if changed
// ---
if (newMouse) {
if (pCDB) {
QString topic;
XData* sysData = mFiles["sys_INPUT"] -> getDevice(mWorkingIndex);
if (sysData) {
QDict<char> mouseInfo = sysData -> getData();
QTextOStream (&topic)
<< mVendor->currentText() << " " << mName->currentText()
<< " ( " << mouseInfo["Protocol"] << " " << mText["at"] << " "
<< mouseInfo["Device"] << " )";
int* newIndex = (int*) malloc(sizeof(int));
*newIndex = mWorkingIndex;
mIndexList.append (newIndex);
mouseList -> insertItem (
QPixmap(PIXINTROMOUSE),topic
);
mSelected = mIndexList.find ( newIndex );
mouseList -> setSelected ( mSelected,true );
mouseList -> setCurrentItem ( mSelected );
mDel -> setDisabled ( false );
mSetup -> setDisabled ( false );
}
}
} else {
QString topic;
if (pCDB) {
QTextOStream (&topic)
<< mVendor->currentText() << " " << mName->currentText()
<< " ( " << workingMouse["Protocol"] << " " << mText["at"]
<< " " << workingMouse["Device"] << " )";
} else {
QTextOStream (&topic)
<< workingMouse["Name"]
<< " ( " << workingMouse["Protocol"] << " " << mText["at"]
<< " " << workingMouse["Device"] << " )";
}
mouseList -> changeItem (
QPixmap(PIXINTROMOUSE),topic,mSelected
);
}
}
//=====================================
// main program...
//-------------------------------------
int main(int argc,char*argv[]) {
//=====================================
// init variables...
//-------------------------------------
bool uniFont = false;
bool noBorder = false;
bool fastSetup = false;
bool withDialog = false;
bool yastMode = false;
bool useHwData = false;
bool fullScreen = false;
bool setInfo = false;
bool set3D = false;
bool setXIdle = false;
bool checkPacs = false;
for (int n=0;n<argc;n++) {
if (strcmp(argv[n],"-style") == 0) {
globalStyle = (char*) malloc (sizeof(char) * 128);
sprintf(globalStyle,"%s",argv[n+1]);
break;
}
}
//=====================================
// check for root priviliges...
//-------------------------------------
if (! accessAllowed()) {
fprintf (stderr,"xapi: only root can do this\n");
usage();
}
//=====================================
// start logging...
//-------------------------------------
logInit();
//=====================================
// allocate main qt object...
//-------------------------------------
for (int i=0;i<argc;i++) {
QString item (argv[i]);
if ((item == "-h") || (item == "--help")) {
logExit(); usage(); exit(0);
}
}
QApplication app(argc,argv);
//=====================================
// get additional options...
//-------------------------------------
QString* idlePID = NULL;
QString* cardName3D = NULL;
QString* popUpDialog = NULL;
QString* cardDriver = NULL;
while (1) {
int option_index = 0;
static struct option long_options[] =
{
{"usehwdata" , 0 , 0 , 'u'},
{"fullscreen" , 0 , 0 , 'l'},
{"info" , 0 , 0 , 'i'},
{"yast" , 0 , 0 , 'y'},
{"checkpacs" , 0 , 0 , 'c'},
{"noborder" , 0 , 0 , 'n'},
{"3d" , 1 , 0 , 'D'},
{"driver" , 1 , 0 , 'd'},
{"frameWidth" , 1 , 0 , 'w'},
{"dialog" , 1 , 0 , 'O'},
{"unifont" , 0 , 0 , 'U'},
{"xidle" , 0 , 0 , 'x'},
{"pid" , 1 , 0 , 'p'},
{"fast" , 0 , 0 , 'f'},
{"help" , 0 , 0 , 'h'},
{0 , 0 , 0 , 0 }
};
int c = getopt_long (
argc, argv, "uicD:fhxlw:d:yp:nUO:",long_options, &option_index
);
if (c == -1)
break;
switch (c) {
case 0:
fprintf (stderr,"xapi: option %s", long_options[option_index].name);
if (optarg)
fprintf (stderr," with arg %s", optarg);
fprintf (stderr,"\n");
break;
case 'f':
fastSetup = true;
break;
case 'U':
uniFont = true;
break;
case 'O':
withDialog = true;
popUpDialog = new QString (optarg);
break;
case 'n':
noBorder = true;
break;
case 'y':
yastMode = true;
break;
case 'w':
globalFrameWidth = atoi (optarg);
break;
case 'u':
useHwData = true;
break;
case 'l':
fullScreen = true;
break;
case 'i':
setInfo = true;
break;
case 'c':
checkPacs = true;
break;
case 'D':
set3D = true;
cardName3D = new QString (optarg);
break;
case 'p':
idlePID = new QString (optarg);
break;
case 'd':
cardDriver = new QString (optarg);
break;
case 'x':
setXIdle = true;
break;
case 'h':
logExit(); usage();
break;
default:
logExit(); exit(1);
}
}
//=====================================
// check if xapi should act as xidle
//-------------------------------------
if (setXIdle) {
XTimeElapsed* idleTimer = new XTimeElapsed ( idlePID );
app.setMainWidget (idleTimer);
idleTimer->show();
return app.exec();
}
//=====================================
// check md5 sum of current config
//-------------------------------------
if ((! setInfo) && (! set3D) && (! checkPacs) &&
(! useHwData) && (! fastSetup)
) {
bool createMD5sum = false;
QFileInfo xc (MD5CONFIG);
if (xc.exists()) {
QString mD5Sum = qx(MD5,STDOUT,1,"%s",XCONFIG);
QFile mHandle (MD5CONFIG);
if (mHandle.open(IO_ReadOnly)) {
QString compare;
mHandle.readLine(compare,MAX_LINE_LENGTH);
mHandle.close();
compare = compare.stripWhiteSpace();
if (compare == mD5Sum) {
fastSetup = true;
} else {
fastSetup = false;
}
}
} else {
fastSetup = false;
}
if (createMD5sum) {
QString mD5Sum = qx(MD5,STDOUT,1,"%s",XCONFIG);
QFile mHandle (MD5CONFIG);
if (mHandle.open(IO_WriteOnly)) {
mHandle.writeBlock (mD5Sum.ascii(),mD5Sum.length());
mHandle.close();
}
}
}
//=====================================
// check option combinations...
//-------------------------------------
if (useHwData == true) {
fastSetup = false;
}
//=====================================
// set root window cursor to the watch
//-------------------------------------
setMouseCursor ("watch");
//=====================================
// init program...
//-------------------------------------
QWidget::WFlags wflags = Qt::WType_TopLevel;
if (noBorder) {
wflags |= Qt::WStyle_Customize | Qt::WStyle_NoBorder;
}
if (uniFont) {
QFont currentFont = QFont( "Helvetica", 12 );
currentFont.setStyleHint( QFont::SansSerif, QFont::PreferBitmap );
currentFont.setRawName (UNIFONT);
qApp->setFont (currentFont);
}
xapi = new XFrame (
globalFrameWidth, wflags
);
if (setInfo) {
signal (SIGHUP ,gotKill);
signal (SIGKILL,gotKill);
signal (SIGABRT,gotKill);
signal (SIGTERM,gotKill);
XInfo infoBox (xapi);
infoBox.showIntroBox();
logExit();
setMouseCursor ();
exit (
infoBox.returnCode()
);
}
if (set3D) {
XInfo infoBox (xapi);
infoBox.show3DBox (*cardName3D,cardDriver);
printf("%d\n",infoBox.returnCode());
logExit();
setMouseCursor ();
exit (
infoBox.returnCode()
);
}
if (fastSetup) {
xapi->fastSetup = true;
}
if (useHwData) {
xapi->useHwData = true;
}
if (fullScreen) {
xapi->fullScreen = true;
}
if (yastMode) {
xapi->yastMode = true;
}
//=====================================
// check 3D environment
//-------------------------------------
XStringList packageInfo ( qx (GET3D,STDOUT) );
packageInfo.setSeperator (":");
QString package = packageInfo.getList().at(0);
QString real3d = packageInfo.getList().at(1);
QString soft3d = packageInfo.getList().at(2);
QString general = packageInfo.getList().at(3);
QString active = packageInfo.getList().at(4);
QString answer = packageInfo.getList().at(5);
QString flag = packageInfo.getList().at(6);
global3DActive = active.toInt();
QString status1 ("1");
if (checkPacs) {
// ...
// if the 3D Answer was no, there is no need
// to check for any packages or scripts
// ---
if (answer == "no") {
setMouseCursor (); exit (0);
}
// ...
// install the missing packages using YaST2
// sw_single mode
// ---
if (package != "<none>") {
if (setMessage("InstallPackage",xapi)) {
status1 = qx (
GETINSTALLED,STDOUT,1,"%s",package.ascii()
);
}
}
setMouseCursor ();
exit (0);
}
//=====================================
// remove lilo code file...
//-------------------------------------
unlink (LILOCODE);
//=====================================
// init main frame...
//-------------------------------------
if (! xapi->frameInitialized()) {
xapi->setFrame ();
}
//=====================================
// set signal handler...
//-------------------------------------
signal (SIGUSR2,SIG_IGN);
signal (SIGINT ,gotInterrupted);
//=====================================
// init dialogs...
//-------------------------------------
XIntro* intro = new XIntro();
XAccessX* xaccess = new XAccessX();
XMouse* mouse = new XMouse();
XCard* card = new XCard();
XDesktop* desktop = new XDesktop();
XDisplayGeometry* geo = new XDisplayGeometry();
XKeyboard* keyboard = new XKeyboard();
XLayout* layout = new XLayout();
XMonitor* monitor = new XMonitor();
XMultihead* multi = new XMultihead();
XTablet* tablet = new XTablet();
XTouchScreen* toucher = new XTouchScreen();
XOpenGL* opengl = new XOpenGL();
XVirtual* virtuals = new XVirtual();
Xvnc* vnc = new Xvnc();
intro -> addTo (xapi);
xaccess -> addTo (xapi,intro);
mouse -> addTo (xapi,intro);
card -> addTo (xapi,intro);
desktop -> addTo (xapi,intro);
geo -> addTo (xapi,intro);
keyboard -> addTo (xapi,intro);
layout -> addTo (xapi,intro);
monitor -> addTo (xapi,intro);
multi -> addTo (xapi,intro);
tablet -> addTo (xapi,intro);
toucher -> addTo (xapi,intro);
opengl -> addTo (xapi,intro);
virtuals -> addTo (xapi,intro);
vnc -> addTo (xapi,intro);
//=====================================
// save intro pointer...
//-------------------------------------
introPointer = intro;
//=====================================
// make sure the serverlayout structure
// is created at least one time
//-------------------------------------
XLayout* layoutDialog;
layoutDialog = (XLayout*) intro -> retrieve (Layout);
layoutDialog -> setupLayout();
//=====================================
// make sure the card dialog was build
// in init stage
//-------------------------------------
XCard* cardDialog;
cardDialog = (XCard*) intro -> retrieve (Card);
cardDialog -> showSetupWindow (false);
cardDialog -> slotRun (Card);
cardDialog -> showSetupWindow (true);
//=====================================
// call resetPage of the desktop dialog
// to check for framebuffer usage
//-------------------------------------
XDesktop* desktopDialog;
desktopDialog = (XDesktop*) intro -> retrieve (Colors);
desktopDialog -> resetPage ( PAGE_RELOAD );
//=====================================
// add margin around pushbutton texts
// this is only needed for QT3
//-------------------------------------
#if 1
QObject* obj;
QObjectList* l = xapi->queryList( "QPushButton" );
QObjectListIt it( *l );
QDict<char>* mText = xapi->getTextPointer();
while ( (obj=it.current()) != 0 ) {
++it;
QPushButton* btn = (QPushButton*) obj;
QString text = btn->text();
if (! text.isNull()) {
QDictIterator<char> n (*mText);
for (; n.current(); ++n) {
if (n.current() == text) {
QString* newText = new QString();
QTextOStream (newText) << " " << text << " ";
mText->replace (n.currentKey(),*newText);
break;
}
}
QString addText;
QTextOStream (&addText) << " " << text << " ";
btn->setText (addText);
}
}
delete l;
// ...
// special keys which are used dynamically on widgets
// with initially other texts
// ---
QList<char> keyList;
keyList.append ( "finish" );
keyList.append ( "Next" );
QListIterator<char> io ( keyList );
for (; io.current(); ++io) {
QString key ( io.current() );
QString curText (mText->operator[](key));
QString* newText = new QString();
QTextOStream (newText) << " " << curText << " ";
mText->replace (key,*newText);
}
#endif
//=====================================
// remove xfine cache directory...
//-------------------------------------
removeXFineCache();
//=====================================
// go to main event loop...
//-------------------------------------
app.setMainWidget(xapi);
xapi -> show();
xapi -> enterEvent ( 0 );
xapi -> activateFirstItem();
setMouseCursor();
if (! withDialog) {
intro -> checkDetected();
} else {
if ( *popUpDialog == "Monitor" ) {
xapi -> runDialog (Monitor);
} else
if ( *popUpDialog == "Card") {
xapi -> runDialog (Card);
} else {
fprintf (stderr,"xapi: no such dialog: %s\n",popUpDialog->ascii());
exit (1);
}
}
return app.exec();
}
//====================================
// exportData
//------------------------------------
bool SCCMouse::exportData ( void ) {
int mouseID = 0;
QListIterator<SCCMouseDisplay> it (mMouseDisplay);
for (; it.current() ; ++it) {
//====================================
// check for mouse display's
//------------------------------------
SCCMouseDisplay* display = (SCCMouseDisplay*)it.current();
//if (display->isEnabled()) {
//====================================
// create manipulators...
//------------------------------------
SaXManipulateMice saxMouse (
mSection["Pointers"]
);
SaXManipulateLayout saxLayout (
mSection["Layout"],mSection["Card"]
);
//====================================
// select pointer device
//------------------------------------
mouseID = display->getDisplay();
saxMouse.selectPointer ( mouseID );
//====================================
// save mouse selection data
//------------------------------------
SCCMouseModel* modelData = display->getModelData();
QString vendor = modelData -> getVendorName();
QString model = modelData -> getModelName();
QString zmap;
if (! model.isEmpty() ) {
QDict<QString> mData = mSection["Pointers"]->getCurrentTable();
QDictIterator<QString> it (mData);
for (; it.current() ; ++it) {
QString key = it.currentKey();
QString val = *it.current();
if (key == "Identifier") {
continue;
}
if (key == "ZAxisMapping") {
zmap = val;
}
mSection["Pointers"]->removeEntry ( key );
}
saxMouse.setMouse ( vendor,model );
}
//====================================
// save 3-Button emulation data
//------------------------------------
saxMouse.disable3ButtonEmulation();
if (display->isButtonEmulationEnabled()) {
saxMouse.enable3ButtonEmulation();
}
//====================================
// save mouse wheel data
//------------------------------------
saxMouse.disableWheel();
if (display->isWheelEnabled()) {
if (! zmap.isEmpty()) {
QStringList tokens = QStringList::split ( " ",zmap );
int b1 = tokens.first().toInt();
int b2 = tokens.last().toInt();
saxMouse.enableWheelOn (b1,b2);
} else {
saxMouse.enableWheel();
}
}
//====================================
// save mouse X axis invertation data
//------------------------------------
saxMouse.disableXAxisInvertation();
if (display->isXInverted()) {
saxMouse.enableXAxisInvertation();
}
//====================================
// save mouse Y axis invertation data
//------------------------------------
saxMouse.disableYAxisInvertation();
if (display->isYInverted()) {
saxMouse.enableYAxisInvertation();
}
//====================================
// save mouse wheel emulation data
//------------------------------------
saxMouse.disableWheelEmulation();
if (display->isWheelEmulationEnabled()) {
saxMouse.enableWheelEmulation (display->getWheelButton());
}
//====================================
// save input layout
//------------------------------------
saxLayout.removeInputLayout (mouseID);
if (display->isEnabled()) {
saxLayout.addInputLayout (mouseID);
}
//}
}
return true;
}
