/*************************************************************************** sensor.cpp - description ------------------- begin : mié abr 24 2002 copyright : (C) 2002 by Miguel Novas email : michaell@teleline.es ***************************************************************************/ /*************************************************************************** * * * 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 #include "sensor.h" #include "sensorslist.h" Sensor::Sensor(SensorsList *parent,const char *name): TQObject(parent,name) { description = ""; compensation = 0; multiplicator= 1; monitorize = false; } Sensor::~Sensor(){ } Sensor::SensorClass Sensor::getClass() { return ((SensorsList *)parent())->getClass(); } TQString Sensor::getPrintMask(bool addSufix) { return getSensorPrintMask(type, addSufix, ((SensorsList*)parent())->getTempScale() ); } const char *Sensor::getSensorPrintMask(int sensorType, bool addSufix, TempScale temp) { if(addSufix) { switch(sensorType) { case Sensor::lmTemp: switch(temp) { case dgCelsius : return "%.0lf C"; case dgFahrenheit: return "%.0lf F"; case dgKelvin : return "%.0lf K"; } break; case Sensor::lmFan: return "%.0lf rpm"; case Sensor::lmVoltage: return "%.2lfV"; } } return sensorType==Sensor::lmVoltage ? ".2lf" : ".0lf"; } bool Sensor::monitorized() { return monitorize; } void Sensor::setMonitorized(bool enable) { if( monitorize!=enable ) monitorize= enable; } void Sensor::setValueIdeal(double value, TempScale scale) { valIdeal= toCelsius(value, scale); } void Sensor::setValueMax(double value, TempScale scale) { valMax= toCelsius(value,scale); } void Sensor::setValueMin(double value, TempScale scale) { valMin= toCelsius(value,scale); } void Sensor::setCompensation(double value, TempScale scale) { compensation= toCelsiusDiff(value,scale); } void Sensor::setMultiplicator(double value) { multiplicator= value; } void Sensor::setDescription(const TQString &str) { description= str; } void Sensor::setValue(double newVal, TempScale scale, bool ajust) { newVal= toCelsius(newVal,scale); if (ajust) newVal= adjustValue(newVal); if(val!=newVal) { valPrevious= val; val = newVal; emit valueChanged( celsiusTo(val) ); } } void Sensor::writeConfig() { TDEConfig *ksConfig= TDEGlobal::config(); if(ksConfig) { ksConfig->setGroup( TQString(name()) ); ksConfig->writeEntry("description" ,description); ksConfig->writeEntry("valueIdeal" ,valIdeal); ksConfig->writeEntry("valueMax" ,valMax); ksConfig->writeEntry("valueMin" ,valMin); ksConfig->writeEntry("compensation" ,compensation); ksConfig->writeEntry("multiplicator",multiplicator); ksConfig->writeEntry("monitorize" ,monitorize); emit configChanged(); } } void Sensor::readConfig() { TDEConfig *ksConfig= TDEGlobal::config(); if(ksConfig) { ksConfig->setGroup( TQString(name()) ); valMax = ksConfig->readDoubleNumEntry("valueMax" ,valMax); valMin = ksConfig->readDoubleNumEntry("valueMin" ,valMin); compensation = ksConfig->readDoubleNumEntry("compensation" ,compensation); multiplicator= ksConfig->readDoubleNumEntry("multiplicator",multiplicator); description = ksConfig->readEntry ("description" ,description); valIdeal = ksConfig->readDoubleNumEntry("valueIdeal" ,valIdeal); setMonitorized( ksConfig->readBoolEntry ("monitorize" ,monitorize) ); } } double Sensor::toCelsius(double val, TempScale scale) { if(type!=lmTemp) return val; switch( scale == dgDefault ? getTempScale(): scale ) { case dgCelsius : return val; case dgFahrenheit: return (5.0/9.0)*(val-32.0); } return val - 273.16; // Kelvin to Celsius } double Sensor::celsiusTo(double val, TempScale scale) { if(type!=lmTemp) return val; switch( scale==dgDefault ? getTempScale() : scale ) { case dgCelsius : return val; case dgFahrenheit: return (9.0/5.0)*val+32.0; } return val + 273.16; // Celsius to Kelvin } double Sensor::toCelsiusDiff(double val, TempScale scale) { if(scale==dgDefault) scale= getTempScale(); if(type!=lmTemp || scale!=dgFahrenheit ) return val; return val*(5.0/9.0); } double Sensor::celsiusToDiff(double val, TempScale scale) { if(scale==dgDefault) scale= getTempScale(); if(type!=lmTemp || scale!=dgFahrenheit ) return val; return val*(9.0/5.0); } Sensor::TempScale Sensor::getTempScale() { return ((SensorsList *)parent())->getTempScale(); } #include "sensor.moc"