void UISearchPage::menu_Browse() { QList<QListViewItem> list = m_view->selectedItems(); QListViewItem * item; QString path; for ( item = list.first(); item != 0; item = list.next() ) { path = item->text( UIPageView::Col_Path ); if ( path.isEmpty() ) return ; IOMessage * io = new IOMessage( 0 ); io->setMessageType( IONapsterCodes::BrowseRequest ); io->insert( "nick", item->text( UIPageView::Col_Nick ) ); io->insert( "path", item->text( UIPageView::Col_Path ) ); io->insert( "name", item->text( UIPageView::Col_Name ) ); io->insert( "speed", item->text( UIPageView::Col_Link ) ); io->insert( "bitrate", item->text( UIPageView::Col_Bitr ) ); io->insert( "host", item->text( UIPageView::Col_Host ) ); io->insert( "time", item->text( UIPageView::Col_Time ) ); io->insert( "size", item->text( UIPageView::Col_Size ) ); io->insert( "freq", item->text( UIPageView::Col_Freq ) ); emit sendIO( io ); delete io; } }
void App::slotRefreshWindowMenu() { QWidget* widget; int id = 0; QList <QWidget> wl = workspace()->windowList(); QString dir; settings()->get(KEY_SYSTEM_DIR, dir); dir += QString("/") + PIXMAPPATH; m_windowMenu->clear(); m_windowMenu->insertItem(QPixmap(dir + QString("/cascadewindow.xpm")), "Cascade", this, SLOT(slotWindowCascade()), 0, ID_WINDOW_CASCADE); m_windowMenu->insertItem(QPixmap(dir + QString("/tilewindow.xpm")), "Tile", this, SLOT(slotWindowTile()), 0, ID_WINDOW_TILE); m_windowMenu->insertSeparator(); for (widget = wl.first(); widget != NULL; widget = wl.next()) { m_windowMenu->insertItem(widget->caption(), id); if (widget->isVisible() == true) { m_windowMenu->setItemChecked(id, true); } id++; } connect(m_windowMenu, SIGNAL(activated(int)), this, SLOT(slotWindowMenuCallback(int))); }
void Doc::createJoystickContents(QList<QString> &list) { QString name; QString fdName; Joystick* j = NULL; for (QString* s = list.next(); s != NULL; s = list.next()) { if (*s == QString("Entry")) { s = list.prev(); break; } else if (*s == QString("FDName")) { fdName = *(list.next()); } else if (*s == QString("Name")) { name = *(list.next()); j = joystickPlugin()->search(fdName); if (j == NULL || j->name() != name) { QString text; text.sprintf("Unable to find joystick \"%s\" from <%s> while loading workspace file.\n", (const char*) name, (const char*) fdName); text += QString("Do you want to select another device (press Yes) or skip this joystick (press No)?"); if (QMessageBox::critical(NULL, QString("QLC"), text, QMessageBox::Yes, QMessageBox::No) == QMessageBox::Yes) { j = joystickPlugin()->selectJoystick(); } } if (j != NULL) { j->createContents(list); addInputDevice(j); j->open(); j->start(); } } } }
void UmlCanvas::update_global_settings() { UmlCanvas * c; for (c = All.first(); c != 0; c = All.next()) { c->br_diagram->update_drawing_settings(); c->show_shadow = c->br_diagram->get_shadow(); c->draw_all_relations = c->br_diagram->get_draw_all_relations(); } }
void UserTabBar::layoutTabs() { QTabBar::layoutTabs(); #if QT_VERSION < 300 QList<QTab> *tList = tabList(); for (QTab *t = tList->first(); t; t = tList->next()){ t->r.setHeight(height()); } #endif }
bool UserTabBar::isBold(UserWnd *wnd) { QList<QTab> *tList = tabList(); for (QTab *t = tList->first(); t; t = tList->next()){ UserTab *tab = static_cast<UserTab*>(t); if (tab->wnd() == wnd) return tab->isBold(); } return false; }
void VirtualConsole::createVirtualConsole(QList<QString>& list) { QString t; QRect rect(10, 10, 400, 400); for (QString* s = list.next(); s != NULL; s = list.next()) { if (*s == QString("Entry")) { list.prev(); break; } else if (*s == QString("Mode")) { t = *(list.next()); if (t == QString("Design")) { setMode(Design); } else { setMode(Operate); } } else if (*s == QString("X")) { t = *(list.next()); rect.setX(t.toInt()); } else if (*s == QString("Y")) { t = *(list.next()); rect.setY(t.toInt()); } else if (*s == QString("Width")) { t = *(list.next()); rect.setWidth(t.toInt()); } else if (*s == QString("Height")) { t = *(list.next()); rect.setHeight(t.toInt()); } else { list.next(); } } setGeometry(rect); }
UserWnd *UserTabBar::wnd(unsigned id) { layoutTabs(); QList<QTab> *tList = tabList(); for (QTab *t = tList->first(); t; t = tList->next()){ UserTab *tab = static_cast<UserTab*>(t); if (tab->wnd()->id() == id) return tab->wnd(); } return NULL; }
void Expert::toggle(const char *name,bool state) { QList<IInput> *inputs = m_dependencies->find(name); ASSERT(inputs!=0); IInput *input = inputs->first(); while (input) { input->setEnabled(state); input = inputs->next(); } }
void UserTabBar::raiseTab(unsigned id) { QList<QTab> *tList = tabList(); for (QTab *t = tList->first(); t; t = tList->next()){ UserTab *tab = static_cast<UserTab*>(t); if (tab->wnd()->id() == id){ setCurrentTab(tab); return; } } }
void UserTabBar::setBold(unsigned id, bool bBold) { QList<QTab> *tList = tabList(); for (QTab *t = tList->first(); t; t = tList->next()){ UserTab *tab = static_cast<UserTab*>(t); if (tab->wnd()->id() == id){ if (tab->setBold(bBold)) repaint(); break; } } }
void FunctionCollectionEditor::updateFunctionList() { ASSERT(m_functionCollection != NULL); QList <CollectionItem> il = m_functionCollection->items(); m_functionList->clear(); for (CollectionItem* item = il.first(); item != NULL; item = il.next()) { new QListViewItem(m_functionList, item->callerDevice->name(), item->feederFunction->name()); } }
/** Virtuelle Print-Funktion fuer Testzwecke. Gibt Infos zu den Knoten aus */ void FormBaseNode::printChilds(){ //Liste der Kinder holen QList<FormBaseNode> nodelist = this->children(); cout << ">>call: FormBaseNode::printChilds() - "<<name_<<endl; //Fuer alle Kinder die 'printChilds' Fkt. aufrufen FormBaseNode *node; for ( node = nodelist.first(); node != 0; node = nodelist.next() ) node->printChilds(); cout << "<<call: FormBaseNode::printChilds() - "<<name_<<endl; }
void UserTabBar::changeTab(unsigned id) { layoutTabs(); QList<QTab> *tList = tabList(); for (QTab *t = tList->first(); t; t = tList->next()){ UserTab *tab = static_cast<UserTab*>(t); if (tab->wnd()->id() == id){ tab->setText(tab->wnd()->getName()); break; } } }
void Bus::createContents(QList <QString> &list) { for (QString* s = list.next(); s != NULL; s = list.next()) { if (*s == QString("Entry")) { s = list.prev(); break; } else if (*s == QString("Name")) { m_name = *(list.next()); } else if (*s == QString("ID")) { m_id = list.next()->toInt(); } else if (*s == QString("Type")) { m_type = (Type) list.next()->toInt(); } else if (*s == QString("Value")) { m_value = list.next()->toInt(); } } }
void Doc::createJoystickContents(QList<QString> &list) { QString name; QString fdName; for (QString* s = list.next(); s != NULL; s = list.next()) { if (*s == QString("Entry")) { s = list.prev(); break; } else if (*s == QString("FDName")) { fdName = *(list.next()); } else if (*s == QString("Name")) { name = *(list.next()); } } }
void UserTabBar::removeTab(unsigned id) { layoutTabs(); QList<QTab> *tList = tabList(); for (QTab *t = tList->first(); t; t = tList->next()){ UserTab *tab = static_cast<UserTab*>(t); if (tab == NULL) continue; if (tab->wnd()->id() == id){ QTabBar::removeTab(tab); break; } } }
void GliderEditorNumPad::readPolarData() { // qDebug ("GliderEditorNumPad::readPolarData "); #warning "location of glider.pol file is CUMULUS_ROOT/etc" // try to read more polars from document folder // these files are in winpilot format: one file per polar DocLnkSet docs; Global::findDocuments(&docs, "cumulus/polar"); QList<DocLnk*> list = docs.children(); // qDebug ("found %d polars in document folder", list.count()); for (DocLnk* doc = list.first(); doc; doc = list.next()) { QString path = doc->file(); // qDebug ("Doc: %s", path.toLatin1().data()); QFile file (path); QTextStream stream(&file); if (file.open(IO_ReadOnly)) { QString glidertype = QFileInfo(file).baseName(); while (!stream.eof()) { QString line = stream.readLine(); // ignore comments if (line[0] == '*') continue; QStringList list = QStringList::split(',',line,TRUE); m_openGliderList->addItem (glidertype); // vertical speeds are already negative in these files ! Speed v1,w1,v2,w2,v3,w3; double maxgross = list [0].toDouble(); int maxwater = list [1].toInt(); v1.setKph(list[2].toDouble()); w1.setMps(list[3].toDouble()); v2.setKph(list[4].toDouble()); w2.setMps(list[5].toDouble()); v3.setKph(list[6].toDouble()); w3.setMps(list[7].toDouble()); pol=new Polar(this, glidertype,v1,w1,v2,w2,v3,w3,0.0,0.0,0.0,maxgross); pol->setMaxWater(maxwater); m_polars.append(pol); break; } } } }
void SceneEditor::selectFunctions() { QList <Function> *fl = m_device->deviceClass()->functions(); for (Function* f = fl->first(); f != NULL; f = fl->next()) { if (f->type() == Function::Scene) { m_availableScenesComboBox->insertItem(f->name()); } } setStatusText( "unchanged",QColor( 0, 255, 100 )); slotSceneActivated(0); }
void SceneEditor::slotClassRadioClicked() { QList <Function> *fl = m_device->deviceClass()->functions(); m_availableScenesComboBox->clear(); for (Function* f = fl->first(); f != NULL; f = fl->next()) { if (f->type() == Function::Scene) { m_availableScenesComboBox->insertItem(f->name()); } } m_deviceSource = "DeviceClass"; }
void UserTabBar::removeTab(unsigned id) { layoutTabs(); QList<QTab> *tList = tabList(); for (QTab *t = tList->first(); t; t = tList->next()){ UserTab *tab = static_cast<UserTab*>(t); if (tab == NULL) continue; if (tab->wnd()->id() == id){ QTabBar::removeTab(tab); QTimer::singleShot(0, this, SLOT(slotRepaint())); break; } } }
/** print fkt. */ void FormOperator::printChilds() { //Liste der Kinder holen QList<FormBaseNode> nodelist = this->children(); cout <<name_; setOpen(); //Fuer alle Kinder die 'printChilds' Fkt. aufrufen FormBaseNode *node; for ( node = nodelist.first(); node != 0; node = nodelist.next() ){ //if(node != nodelist.getFirst()) cout <<name_; // da stimmt was nicht node->printChilds(); } setClose(); }
void CppRefType::force_ref(UmlClass * cl, QList<CppRefType> & l) { CppRefType * ref; QCString t = cl->name(); for (ref = l.first(); ref; ref = l.next()) { // don't use ref->type.toString() because of synonymous // in several namespaces if ((ref->type.type != 0) ? (ref->type.type == cl) : (ref->type.explicit_type == t)) { ref->included = FALSE; return; } } }
void TagFileParser::addIncludes() { TagFileInfo *tfi = m_tagFileFiles.first(); while (tfi) { //printf("tag file tagName=%s path=%s name=%s\n",m_tagName.data(),tfi->path.data(),tfi->name.data()); FileName *fn = Doxygen::inputNameDict->find(tfi->name); if (fn) { //printf("found\n"); FileNameIterator fni(*fn); FileDef *fd; for (;(fd=fni.current());++fni) { //printf("input file path=%s name=%s\n",fd->getPath().data(),fd->name().data()); if (fd->getPath()==QCString(m_tagName+":"+tfi->path)) { //printf("found\n"); QListIterator<TagIncludeInfo> mii(tfi->includes); TagIncludeInfo *ii; for (;(ii=mii.current());++mii) { //printf("ii->name=`%s'\n",ii->name.data()); FileName *ifn = Doxygen::inputNameDict->find(ii->name); ASSERT(ifn!=0); if (ifn) { FileNameIterator ifni(*ifn); FileDef *ifd; for (;(ifd=ifni.current());++ifni) { //printf("ifd->getOutputFileBase()=%s ii->id=%s\n", // ifd->getOutputFileBase().data(),ii->id.data()); if (ifd->getOutputFileBase()==QCString(ii->id)) { fd->addIncludeDependency(ifd,ii->text,ii->isLocal,ii->isImported,FALSE); } } } } } } } tfi = m_tagFileFiles.next(); } }
void NewDevice::fillTree() { QListViewItem* parent = NULL; QListViewItem* newItem = NULL; QList <DeviceClass> *dl = _app->doc()->deviceClassList(); QString path; _app->settings()->get("SystemPath", path); path += QString("/") + PIXMAPPATH; QPixmap pm(path + QString("/dmx.xpm")); QString tree; _app->settings()->get("NewDeviceTreeOpen", tree); bool treeOpen = (tree == Settings::trueValue()) ? true : false; m_tree->clear(); for (DeviceClass* dc = dl->first(); dc != NULL; dc = dl->next()) { bool alreadyAdded = false; for (QListViewItem* i = m_tree->firstChild(); i != NULL; i = i->nextSibling()) { if (i->text(0) == dc->manufacturer()) { alreadyAdded = true; parent = i; break; } } if (alreadyAdded == false) { parent = new QListViewItem(m_tree, dc->manufacturer()); parent->setOpen(treeOpen); } parent->setPixmap(0, QPixmap(path + QString("/global.xpm"))); newItem = new QListViewItem(parent, dc->model()); newItem->setPixmap(0, pm); newItem->setText(1,dc->type()); } }
void SceneEditor::setScene(Scene* scene) { ChannelUI* unit; QList <ChannelUI> ul = ((DMXDevice*) m_device)->getChannelUnitList(); int n = 0; ASSERT(scene != NULL); for (unit = ul.first(); unit != NULL; unit = ul.next(), n++) { SceneValue value = scene->channelValue(n); if (value.type == Set || value.type == Fade) { unit->slotAnimateValueChange(value.value); unit->setStatusButton(DMXChannel::On); } else { unit->setStatusButton(DMXChannel::Off); } } }
bool CppRefType::add(const QCString & t, QList<CppRefType> & l, bool incl) { if (t.isEmpty()) return FALSE; static QDict<char> cpp_builtin_types; if (cpp_builtin_types.count() == 0) { cpp_builtin_types.insert("unsigned", " "); cpp_builtin_types.insert("signed", " "); cpp_builtin_types.insert("char", " "); cpp_builtin_types.insert("short", " "); cpp_builtin_types.insert("int", " "); cpp_builtin_types.insert("long", " "); cpp_builtin_types.insert("float", " "); cpp_builtin_types.insert("double", " "); cpp_builtin_types.insert("bool", " "); cpp_builtin_types.insert("void", " "); } if (cpp_builtin_types[t] != 0) return TRUE; CppRefType * ref; Weight w = (incl) ? Medium : Low; for (ref = l.first(); ref; ref = l.next()) { if (ref->type.toString() == t) { if (w > ref->weight) ref->included = incl; return TRUE; } } l.append(new CppRefType(t, incl, w)); return TRUE; }
bool CppRefType::add(UmlClass * cl, QList<CppRefType> & l, bool incl, bool hight) { CppRefType * ref; QCString t = cl->name(); Weight w; if (cl->parent()->kind() == aClass) { // nested => need include parent do cl = (UmlClass *) cl->parent(); while (cl->parent()->kind() == aClass); incl = TRUE; w = Strong; } else if (incl) w = (hight) ? Strong : Medium; else w = (hight) ? High : Low; for (ref = l.first(); ref; ref = l.next()) { // don't use ref->type.toString() because of synonymous // in several namespaces if ((ref->type.type != 0) ? (ref->type.type == cl) : (ref->type.explicit_type == t)) { if (w > ref->weight) ref->included = incl; return TRUE; } } l.append(new CppRefType(cl, incl, w)); return TRUE; }
/** handle the results of the TopDown operator * pid == 0 -> no operator or node have no holistic operator * pid == -1 -> can't start process * never call for "root" node (this is not root node) * this can be "last" node */ int INode::evalTopDown(int pid) { #ifdef DEBUGMSG qDebug("#* INode::evalTopDown(%s)(%p): pid=%d Start\n", (const char *) name(), this, pid); #endif CHECK_PTR(sNode_); //Hier Absturz weil parent = 0 CHECK_PTR(parent()); INode* parent=INode::parent(); if (pid <= 0) { #ifdef DEBUGMSG qDebug ("# (ERROR -1/0) evalTopDown: can't start process \n try it structural\n"); #endif #warning Without Dummy TopDown nothing works if (!isLast() && !truncation()) childTopDown(); //do it structural else if (isLast()) { //is last node status(MI); execState(BU); parent->childUnlink(this); //!remove this temporary INode parent->decrementCount(); return 0; } else { //is trash status(TRASH); execState(BU); parent->childUnlink(this); //!remove this temporary INode parent->decrementCount(); return 0; } } if (sNode_->holistic()) { //pid > 0 QList < INode > iNodeList = sNode_->evalTopDown(this); #ifdef DEBUGMSG qDebug("##*** evalTopDown: %d(min) < %d(ist) < %d(max)",sNode()->minNumNode(),iNodeList.count(), sNode()->maxNumNode()); #endif if (!(sNode()->minNumNode() == 0 && sNode()->maxNumNode() == 0 )) //beide eintraege null -> alles erlaubt if (iNodeList.count() < sNode()->minNumNode() || iNodeList.count() > sNode()->maxNumNode() ) { #ifdef DEBUGMSG qDebug("***** iNodeList.count %d, sNode->minNumNode %d, sNode->maxNumNode %d \n",iNodeList.count(),sNode()->minNumNode(),sNode()->maxNumNode()); #endif status(MI); execState(BU); truncation(TRUE); //! unlink here parent->status(TRASH); parent->truncation(TRUE); parent->childUnlink(this); //!remove this temporary INode parent->decrementCount(); return 0; } #ifdef DEBUGMSG qDebug("# (INFO) sNode is holistic; count new nodes: %d\n", iNodeList.count()); #endif if (iNodeList.isEmpty()) { #ifdef DEBUGMSG qDebug("# (warning) operator return no result - missing Instance"); #endif status(MI); execState(BU); //! unlink here parent->childUnlink(this); //!remove this temporary INode parent->decrementCount(); return 0; } parent->incrementCount(iNodeList.count() - 1); INode *el; parent->childUnlink(this); //!remove this temporary INode for (el = iNodeList.first(); el != 0; el = iNodeList.next()) { #ifdef DEBUGMSG qDebug("# einhaengen: (%p) %s in %s", this,(const char *)el->name(), (const char *)parent->name()); #endif if (el->isLast()) el->status(CI); //el->execState(BU); ??????????? else el->status(PI); el->execState(TD); //}????????????? parent->childLink(el); //insert the new INodes analysis_->nodeChange(el); if (el->isLast()) parent->decrementCount(); else el->childTopDown(); //last node have no children } //delete this; //XXXX #ifdef DEBUGMSG qDebug("# einhaengen: (%p) fertig in %s",this,(const char *)parent->name()); #endif return 0; } else { qDebug ("# (ERROR 1) taskFinished no operator found \n try it structural\n"); if (isLast()) qDebug("# (ERROR 1) last node must be holistic!\n"); parent->childUnlink(this); //!remove this temporary INode return 0; } }
void qapp::read_cprops(void) // read app defaults { QString fname,cline,name,par; int flags; int apnum = 1; fname = get_cfile("appdefaults"); if(fname.isNull()) return; QFile istr(fname); if(! istr.open(IO_ReadOnly)) { perror("cannot open appdefaults"); return; } cprops.clear(); apclients.clear(); while(! istr.atEnd()) { istr.readLine(cline, 1024); QTextIStream si(&cline); si >> name; par = si.readLine(); if(par.find("ToolBar") != -1) { apclients.insert(name, apnum++); continue; } flags = 0; int i; int paf[] = { WindowListSkip,Sticky,SmallFrame,NoResize,NoTile,NoKey,NoScreen }; char *pas[] = { "WindowListSkip","Sticky","SmallFrame","NoResize","NoTile","NoKey","NoScreen" }; for(i=0; i < 7; i++) { if(par.find(pas[i]) != -1) flags |= paf[i]; } if(flags) cprops.insert(name, flags); } istr.close(); // check for clients to update xwindow *client; for(client = clients.first(); client != NULL; client = clients.next()) client->set_pflags(); tb_ap->remove(); // update clients on toolbar }