/*************************************************************************** lmsensorscfg.cpp - description ------------------- begin : Mon Aug 13 2001 copyright : (C) 2001 by email : ***************************************************************************/ /*************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * ***************************************************************************/ #include "lmsensorscfg.h" #include "lmsensorsalarms.h" #include "lmsensorpanel.h" #include "lmsensordockpanel.h" #include "lmsensorswidget.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include LMSensorsCfg::LMSensorsCfg(SensorsList *lsensors,TQWidget *parent, const char *name) : LMSensorsCfgDesign(parent,name,WDestructiveClose) { sensors = lsensors; curSensor= 0; palPanelCfg= new PaletteCfg( boxPanelPalette ); boxPanelPalette->setColumnLayout(0, TQt::Vertical ); boxPanelPalette->layout()->setSpacing( 6 ); boxPanelPalette->layout()->setMargin( 12 ); TQGridLayout *boxPanelPaletteLayout = new TQGridLayout( boxPanelPalette->layout() ); boxPanelPaletteLayout->setAlignment( TQt::AlignTop ); boxPanelPaletteLayout->addWidget( palPanelCfg, 0, 0 ); readSensorsList(); connect( MainTab ,SIGNAL(currentChanged(TQWidget*)), this, SLOT(slotMainTabPageChanged(TQWidget *))); connect( listSensors ,SIGNAL(highlighted(int)),this,SLOT(slotCurrentSensorChanged(int)) ); //connect( buttonApply ,SIGNAL(clicked()),this,SLOT(slotApplyChanges())); connect( buttonTest ,SIGNAL(clicked()),this,SLOT(slotTestAlarm())); connect( editMinValue ,SIGNAL(activated(int)),this,SLOT(slotComboMinMaxSelected(int))); connect( editMaxValue ,SIGNAL(activated(int)),this,SLOT(slotComboMinMaxSelected(int))); } LMSensorsCfg::~LMSensorsCfg() { } void LMSensorsCfg::readSensorsList() { TQObjectList *list= sensors->getSensors(); if(list) { listSensors->clear(); TQPixmap pm; for(LMSensor *sensor=(LMSensor*)list->first(); sensor!=0; sensor= (LMSensor*)list->next()) { switch(sensor->getType()) { case LMSensor::lmTemp : pm= UserIcon("thermometer18x18.png"); break; case LMSensor::lmFan : pm= UserIcon("cooler18x18.png"); break; case LMSensor::lmVoltage: pm= UserIcon("battery18x18.png"); break; } listSensors->insertItem(pm,sensor->getDescription()); } listSensors->setCurrentItem(0); } } void LMSensorsCfg::readSensorInfo(int index) { if(index<0) return; Sensor *oldSensor= curSensor; curSensor= sensors->getSensor(index); if(!curSensor) return; if( oldSensor==0 || curSensor->getType()!=oldSensor->getType() || curSensor->getClass()!=oldSensor->getClass() ) switch(curSensor->getType()) { case LMSensor::lmTemp : GroupBoxDes->setTitle(i18n("Temperature")); pixmapSensor->setPixmap( UserIcon( curSensor->getClass()==Sensor::lmSensor ? "thermometer.png":"harddisk.png" ) ); break; case LMSensor::lmFan : GroupBoxDes->setTitle(i18n("Fan")); pixmapSensor->setPixmap(UserIcon("cooler.png")); break; case LMSensor::lmVoltage: GroupBoxDes->setTitle(i18n("Voltage")); pixmapSensor->setPixmap(UserIcon("battery.png")); break; } editDescription ->setText(curSensor->getDescription()); TQString str; const char *mask= curSensor->getType()==LMSensor::lmVoltage ? "%.2lf":"%.0lf"; str.sprintf(curSensor->getPrintMask(true), curSensor->getValue()); editValue->setText(str); str.sprintf(mask, curSensor->getValueIdeal()); editIdealValue->setText(str); str.sprintf(mask, curSensor->getValueMin()); editMinValue->setEditText(str); str.sprintf(mask, curSensor->getValueMax()); editMaxValue->setEditText(str); editSum->setText(TQString::number(curSensor->getCompensation())); editMul->setText(TQString::number(curSensor->getMultiplicator())); //checkShowInDock->setEnabled( curSensor->getType()==LMSensor::lmTemp ); //GroupBoxColorDock->setEnabled( curSensor->getType()==LMSensor::lmTemp ); CheckAllSensors->setChecked(false); colorAlarm ->setColor ( LMSensorDockPanel::readColorAlarm(curSensor->name()) ); colorNormal ->setColor ( LMSensorDockPanel::readColorNormal(curSensor->name()) ); checkShow ->setChecked( LMSensorPanel::readShow(curSensor->name()) ); checkShowInDock->setChecked( checkShowInDock->isEnabled() && LMSensorDockPanel::readShowInDock(curSensor->name()) ); editLaunch->setText( LMSensorsAlarms::readAlarmCommand(curSensor->name()) ); editPlay ->setText( LMSensorsAlarms::readAlarmSound (curSensor->name()) ); switch( LMSensorsAlarms::readAlarm(curSensor->name()) ) { case LMSensorsAlarms::acNothing : radioAlarm1->setChecked(true); break; case LMSensorsAlarms::acSound : radioAlarm2->setChecked(true); break; case LMSensorsAlarms::acCommand : radioAlarm3->setChecked(true); break; } palPanelCfg->readPalette(curSensor->name()); } void LMSensorsCfg::readPreferencesInfo() { switch(sensors->getTempScale()) { case LMSensor::dgCelsius : RadioC->setChecked(true); break; case LMSensor::dgFahrenheit: RadioF->setChecked(true); break; case LMSensor::dgKelvin : RadioK->setChecked(true); break; } SpinUpdateTime->setValue(sensors->getUpdateInterval()); } void LMSensorsCfg::applySensorChanges() { if(!curSensor) return; const TQString sName(curSensor->name()); // Apply sensor configuration curSensor->setDescription(editDescription->text()); curSensor->setCompensation(editSum->text().toDouble()); curSensor->setMultiplicator(editMul->text().toDouble()); curSensor->setValueIdeal(editIdealValue->text().toDouble()); curSensor->setValueMax(editMaxValue->currentText().toDouble()); curSensor->setValueMin(editMinValue->currentText().toDouble()); curSensor->setMonitorized( checkShow->isChecked() || checkShowInDock->isChecked() || !radioAlarm1->isChecked() ); // Apply show in main window configuration LMSensorPanel::writeShow(sName,checkShow->isChecked() ); // Apply dock configuration LMSensorDockPanel::writeShowInDock(sName,checkShowInDock->isChecked()); LMSensorDockPanel::writeColorNormal(sName,colorNormal->color()); LMSensorDockPanel::writeColorAlarm(sName,colorAlarm->color()); // palPanelCfg->savePalette(); // // Apply alarms configuration if( CheckAllSensors->isChecked() ) { TQObjectList *list= sensors->getSensors(); for(Sensor *sensor=(Sensor*)list->first(); sensor!=0; sensor= (Sensor*)list->next()) { applySensorAlarmConfig(sensor); sensor->writeConfig(); } } else { applySensorAlarmConfig(curSensor); curSensor->writeConfig(); } // This line must always be at the end of the method listSensors->changeItem( *listSensors->pixmap(listSensors->currentItem()),editDescription->text(), listSensors->currentItem() ); } void LMSensorsCfg::applySensorAlarmConfig(Sensor *sensor) { const char *name= sensor->name(); LMSensorsAlarms::writeAlarmCommand(name,editLaunch->text()); LMSensorsAlarms::writeAlarmSound (name,editPlay ->text()); int code= LMSensorsAlarms::acNothing; if(radioAlarm1->isChecked()) code= LMSensorsAlarms::acNothing; else if(radioAlarm2->isChecked()) code= LMSensorsAlarms::acSound; else if(radioAlarm3->isChecked()) code= LMSensorsAlarms::acCommand; LMSensorsAlarms::writeAlarm(name,code); } void LMSensorsCfg::applyPreferencesChanges() { LMSensor::TempScale scale= LMSensor::dgCelsius; if(RadioK->isChecked()) scale= LMSensor::dgKelvin; else if(RadioF->isChecked()) scale= LMSensor::dgFahrenheit; sensors->setTempScale(scale); sensors->setUpdateInterval(SpinUpdateTime->value()); sensors->writeConfig(); } void LMSensorsCfg::slotCurrentSensorChanged(int index) { readSensorInfo(index); } void LMSensorsCfg::slotApplyChanges() { if (!isVisible()) return; switch(MainTab->currentPageIndex()) { case 0: applySensorChanges(); break; case 1: applyPreferencesChanges(); break; } } void LMSensorsCfg::slotAccept() { slotApplyChanges(); close(); } void LMSensorsCfg::slotTestAlarm() { if( radioAlarm2->isChecked() ) { LMSensorsAlarms::playSound(editPlay->text()); } else if( radioAlarm3->isChecked() ) { LMSensorsAlarms::runSensorCommand("TEST","100",editLaunch->text()); } } void LMSensorsCfg::slotMainTabPageChanged(TQWidget *) { switch(MainTab->currentPageIndex()) { case 0: readSensorInfo(listSensors->currentItem()); break; case 1: readPreferencesInfo(); break; } } void LMSensorsCfg::slotComboMinMaxSelected(int index) { TQComboBox *combo = (TQComboBox*)sender(); TQString str = combo->text(index); double percent= str.left(str.length()-1).toDouble(); double value = editIdealValue->text().toDouble(); if(value<0) percent= -percent; value= value + value * percent / 100; const char *mask= curSensor->getType()==LMSensor::lmVoltage ? "%.2lf":"%.0lf"; str.sprintf(mask,value); combo->setEditText(str); } #include "lmsensorscfg.moc"