/**********************************************************************/ /* TimeMon (c) 1994 Helmut Maierhofer */ /* KDE-ified M. Maierhofer 1998 */ /* maintained by Dirk A. Mueller */ /**********************************************************************/ /* * timemon.h * * Definitions for the timemon widget. */ #include #include #include #include #include #include #include #include #include #include #include #include #include "timemon.h" #include "confdlg.h" #include "sample.h" #include "timemon.moc" #include extern "C" { KDE_EXPORT KPanelApplet* init(TQWidget *parent, const TQString& configFile) { KGlobal::locale()->insertCatalogue("ktimemon"); KTimeMon *mon = new KTimeMon(configFile, KPanelApplet::Normal, KPanelApplet::Preferences, parent, "ktimemon"); return mon; } } // Update colour settings with the new ones from the config dialog. void KTimeMon::updateConfig(KConfDialog *d) { kernelColour = d->getKernelColour(); userColour = d->getUserColour(); iowaitColour = d->getIOWaitColour(); niceColour = d->getNiceColour(); cachedColour = d->getCachedColour(); usedColour = d->getUsedColour(); buffersColour = d->getBuffersColour(); mkernelColour = d->getMKernelColour(); swapColour = d->getSwapColour(); bgColour = d->getBgColour(); } // ----------------------------------------------------------------------------- // some KPanelApplet API functions int KTimeMon::widthForHeight(int height) const { int s = (int) (vertical ? 2/3.*height : height); return s>=18? s : 18; } int KTimeMon::heightForWidth(int width) const { int s = (int) (vertical ? width : 2/3.*width); return s>=18? s : 18; } void KTimeMon::preferences() { configure(); } // ----------------------------------------------------------------------------- // Repaint the object; get the current sample and paint the bar graphs // correspondingly. Use a pixmap to minimise flicker. void KTimeMon::paintEvent(TQPaintEvent *) { int w, h, x, y, b, r; w = vertical ? width() : height(); h = vertical ? height() : width(); r = w; // remaining height x = 0; KSample::Sample s; if (sample != 0) s = sample->getSample(h); else s.fill(h); TQPixmap pixmap(width(), height()); pixmap.fill(this, 0, 0); TQPainter painter(&pixmap); b = r / 3; // bar width r -= b; if (bgColour != colorGroup().background()) { paintRect(x, 0, b, h, bgColour, &painter); } y = h - s.kernel; paintRect(x, y, b, s.kernel, kernelColour, &painter); y -= s.iowait; paintRect(x, y, b, s.iowait, iowaitColour, &painter); y -= s.user; paintRect(x, y, b, s.user, userColour, &painter); y -= s.nice; paintRect(x, y, b, s.nice, niceColour, &painter); x += b; b = r / 2; r -= b; if (bgColour != colorGroup().background()) { paintRect(x, 0, b, h, bgColour, &painter); } y = h - s.mkernel; paintRect(x, y, b, s.mkernel, mkernelColour, &painter); y -= s.used; paintRect(x, y, b, s.used, usedColour, &painter); y -= s.buffers; paintRect(x, y, b, s.buffers, buffersColour, &painter); y -= s.cached; paintRect(x, y, b, s.cached, cachedColour, &painter); x += b; b = r; if (bgColour != colorGroup().background()) { paintRect(x, 0, b, h, bgColour, &painter); } y = h - s.sused; paintRect(x, y, b, s.sused, swapColour, &painter); painter.end(); bitBlt(this, 0, 0, &pixmap); } // ----------------------------------------------------------------------------- // Draw part of a bar, depending on the bar orientation. void KTimeMon::paintRect(int x, int y, int w, int h, TQColor c, TQPainter *p) { if (vertical) p->fillRect(x, y, w, h, c); else p->fillRect(width() - y - h, x, h, w, c); } // Show a tool-tip with some status information. void KTimeMon::maybeTip(const TQPoint& p) { if (sample == 0) return; // no associated sample... if(!rect().contains(p)) return; KSample::Sample s = sample->getSample(100); // scale to 100(%) int idle = 100 - s.kernel - s.user - s.nice; if ( idle < 0 ) idle = 0; TQString str = i18n("cpu: %1% idle\nmem: %2 MB %3% free\nswap: %4 MB %5% free") .arg(idle) .arg(KGlobal::locale()->formatNumber(s.used/100.*s.mtotal, 0)) .arg(100-s.used) .arg(KGlobal::locale()->formatNumber(s.stotal, 0)) .arg(100-s.sused); tip(rect(), str); } // -- KTimeMon definition ------------------------------------------------ // Initialise the member variables, read the configuration data base, // set up the widget, and start the timer. KTimeMon::KTimeMon(const TQString& configFile, Type type, int actions, TQWidget *parent, const char *name) : KPanelApplet(configFile, type, actions, parent, name, WRepaintNoErase), TQToolTip(this), configDialog(0), bgProcess(0), kernelColour("red1"), userColour("blue"), niceColour("yellow"), iowaitColour("darkgreen"), usedColour("blue1"), buffersColour("yellow"), cachedColour("darkgreen"), mkernelColour("red1"), swapColour("cyan3"), bgColour(colorGroup().background()) { mouseAction[0] = NOTHING; mouseAction[1] = NOTHING; mouseAction[2] = MENU; KConfig* conf = config(); conf->setGroup("Parameters"); interval = conf->readUnsignedNumEntry("Interval", 500); autoScale = conf->readBoolEntry("AutoScale", true); pageScale = conf->readUnsignedNumEntry("PageScale", 10); swapScale = conf->readUnsignedNumEntry("SwapScale", 5); ctxScale = conf->readUnsignedNumEntry("ContextScale", 300); for (int i = 0; i < MAX_MOUSE_ACTIONS; i++) { TQString n; n.setNum(i); mouseAction[i] = (MouseAction) conf->readUnsignedNumEntry(TQString("MouseAction")+n, mouseAction[i]); mouseActionCommand[i] = conf->readPathEntry(TQString("MouseActionCommand")+n); } conf->setGroup("Interface"); kernelColour = conf->readColorEntry("KernelColour", &kernelColour); userColour = conf->readColorEntry("UserColour", &userColour); niceColour = conf->readColorEntry("NiceColour", &niceColour); iowaitColour = conf->readColorEntry("IOWaitColour", &iowaitColour); cachedColour = conf->readColorEntry("CachedColour", &cachedColour); usedColour = conf->readColorEntry("UsedColour", &usedColour); buffersColour = conf->readColorEntry("BuffersColour", &buffersColour); swapColour = conf->readColorEntry("SwapColour", &swapColour); mkernelColour = conf->readColorEntry("MKernelColour", &mkernelColour); bgColour = conf->readColorEntry("BgColour", &bgColour); vertical = conf->readBoolEntry("Vertical", true); timer = new TQTimer(this); connect(timer, TQT_SIGNAL(timeout()), this, TQT_SLOT(timeout())); timer->start(interval); sample = new KSample(this, autoScale, pageScale, swapScale, ctxScale); TQString aboutmsg = i18n("KTimeMon for KDE\n" "Maintained by Dirk A. Mueller \n" "Written by M. Maierhofer (m.maierhofer@tees.ac.uk)\n" "Based on timemon by H. Maierhofer"); hmenu = new KHelpMenu(this, aboutmsg); menu = new KPopupMenu(this); menu->insertTitle( SmallIcon( "ktimemon" ), i18n( "System Monitor" ) ) ; menu->insertItem(i18n("Horizontal Bars"), 4); menu->insertItem(SmallIcon( "configure" ), i18n( "Preferences..." ), 2); menu->insertSeparator(); menu->insertItem(SmallIcon( "help" ), i18n("Help"), hmenu->menu(), 1); menu->connectItem(2, this, TQT_SLOT(configure())); menu->connectItem(4, this, TQT_SLOT(orientation())); menu->setCheckable(true); vertical = !vertical; // and similar for orientation orientation(); } // ----------------------------------------------------------------------------- // delete the member variables KTimeMon::~KTimeMon() { delete sample; delete bgProcess; KGlobal::locale()->removeCatalogue("ktimemon"); } // Apply the settings from the configuration dialog and save them. void KTimeMon::apply() { stop(); interval = configDialog->getInterval(); cont(); updateConfig(configDialog); sample->setScaling(configDialog->getAutoScale(), configDialog->getPageScale(), configDialog->getSwapScale(), configDialog->getCtxScale()); for (int i = 0; i < MAX_MOUSE_ACTIONS; i++) { mouseAction[i] = (MouseAction) configDialog->getMouseAction(i); mouseActionCommand[i] = configDialog->getMouseActionCommand(i); } update(); writeConfiguration(); } void KTimeMon::stop() { timer->stop(); } void KTimeMon::cont() { timer->start(interval); } // Dump the current configuration entries to the data base. void KTimeMon::writeConfiguration() { KConfig* conf = config(); conf->setGroup("Interface"); conf->writeEntry("KernelColour", kernelColour); conf->writeEntry("UserColour", userColour); conf->writeEntry("NiceColour", niceColour); conf->writeEntry("IOWaitColour", iowaitColour); conf->writeEntry("CachedColour", cachedColour); conf->writeEntry("UsedColour", usedColour); conf->writeEntry("BuffersColour", buffersColour); conf->writeEntry("MKernelColour", mkernelColour); conf->writeEntry("SwapColour", swapColour); conf->writeEntry("BgColour", bgColour); conf->writeEntry("Mode", true); conf->writeEntry("Vertical", vertical); conf->setGroup("Parameters"); conf->writeEntry("Interval", interval); conf->writeEntry("AutoScale", autoScale); conf->writeEntry("PageScale", pageScale); conf->writeEntry("SwapScale", swapScale); conf->writeEntry("ContextScale", ctxScale); conf->writeEntry("WidgetSize", size()); for (int i = 0; i < MAX_MOUSE_ACTIONS; i++) { TQString n; n.setNum(i); conf->writeEntry(TQString("MouseAction")+n, (unsigned)mouseAction[i]); conf->writePathEntry(TQString("MouseActionCommand")+n, mouseActionCommand[i]); } conf->sync(); } // Make the KSample object update its internal sample and repaint the // object. void KTimeMon::timeout() { sample->updateSample(); update(); } // This is called when the session management strikes, and also when the // main program exits with a code of 0 (i.e. there was no error). void KTimeMon::save() { writeConfiguration(); } // ----------------------------------------------------------------------------- // Update the configuration dialog with the current values and show it. void KTimeMon::configure() { if (configDialog == 0) configDialog = new KConfDialog(this); configDialog->update(); configDialog->show(); } // ----------------------------------------------------------------------------- // Change the orientation of the status bars void KTimeMon::orientation() { vertical = !vertical; KConfig* conf = config(); conf->setGroup("Interface"); conf->writeEntry("Vertical", vertical); menu->setItemChecked(4, !vertical); update(); emit updateLayout(); } // Pop up the menu when the appropriate button has been pressed. void KTimeMon::mousePressEvent(TQMouseEvent *event) { if (event == 0) return; int index = -1; if (event->button() == LeftButton) index = 0; else if (event->button() == MidButton) index = 1; else if (event->button() == RightButton) index = 2; if (index == -1) return; switch (mouseAction[index]) { case NOTHING: break; case SWITCH: break; case MENU: menu->popup(mapToGlobal(event->pos())); break; case COMMAND: runCommand(index); break; } } // Start the given command void KTimeMon::runCommand(int index) { // just in case it still hangs around delete bgProcess; bgProcess = new KShellProcess; *bgProcess << mouseActionCommand[index]; connect(bgProcess, TQT_SIGNAL(receivedStderr(KProcess *, char *, int)), this, TQT_SLOT(commandStderr(KProcess *, char *, int))); bgProcess->start(KProcess::DontCare, KProcess::Stderr); } // ----------------------------------------------------------------------------- // Check if there is any diagnostic output (command not found or such) void KTimeMon::commandStderr(KProcess * /*proc*/, char *buffer, int /*length*/) { TQString msgbuf; msgbuf = i18n("Got diagnostic output from child command:\n\n"); msgbuf += TQString::fromLocal8Bit(buffer); KMessageBox::information(this, msgbuf); } // -----------------------------------------------------------------------------