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/**************************************************************************
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* Copyright (C) 2006-2007 by Danny Kukawka *
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* <dkukawka@suse.de>, <danny.kukawka@web.de> *
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* *
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* This program is free software; you can redistribute it and/or modify *
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* it under the terms of version 2 of the GNU General Public License *
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* as published by the Free Software Foundation. *
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* *
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* This program is distributed in the hope that it will be useful, *
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* but WITHOUT ANY WARRANTY; without even the implied warranty of *
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
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* GNU General Public License for more details. *
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* *
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* You should have received a copy of the GNU General Public License *
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* along with this program; if not, write to the *
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* Free Software Foundation, Inc., *
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. *
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***************************************************************************/
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/*!
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* \file hardware_batteryCollection.cpp
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* \brief In this file can be found the Battery Collection related code.
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* \author Danny Kukawka, <dkukawka@suse.de>, <danny.kukawka@web.de>
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* \date 2006-2007
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*/
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#ifdef HAVE_CONFIG_H
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#include <config.h>
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#endif
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// own headers
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#include "hardware_batteryCollection.h"
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/*! The default constructor of the class BatteryCollection. */
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BatteryCollection::BatteryCollection( int _type ) {
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kdDebugFuncIn(trace);
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initDefault();
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type = _type;
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kdDebugFuncOut(trace);
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}
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/*! The default destructor of the class BatteryCollection. */
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BatteryCollection::~BatteryCollection( ) {
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kdDebugFuncIn(trace);
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}
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//! init a battery with default values
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void BatteryCollection::initDefault() {
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kdDebugFuncIn(trace);
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udis.clear();
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present_rate_unit = "W";
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charging_state = UNKNOWN_STATE;
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state = BAT_NORM;
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remaining_percent = -1;
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remaining_minutes = -1;
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present_rate = 0;
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warn_level = 12;
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low_level = 7;
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crit_level = 2;
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kdDebugFuncOut(trace);
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}
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/*!
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* This function refresh the information of the collection from the given
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* batterylist.
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* \param BatteryList TQPtrList with battery objects
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* \param force_level_recheck boolean with info if the the check for the current
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* battery warning level should get forced
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*/
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bool BatteryCollection::refreshInfo(TQPtrList<Battery> BatteryList, bool force_level_recheck) {
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kdDebugFuncIn(trace);
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int _charging_state = UNKNOWN_STATE;
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int _percent = 0;
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int _minutes = 0;
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int _present_batteries = 0;
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double _present_rate = 0;
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// for now: clean list before run update process!
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udis.clear();
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if (!BatteryList.isEmpty()) {
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Battery *bat;
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for (bat = BatteryList.first(); bat; bat = BatteryList.next() ) {
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if (type == bat->getType()) {
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udis.append(bat->getUdi());
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if (bat->isPresent()) {
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// count present batteries
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_present_batteries++;
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// handle charging state
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if (bat->getChargingState() != _charging_state) {
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if (_charging_state == UNKNOWN_STATE) {
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_charging_state = bat->getChargingState();
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} else if ( bat->getChargingState() == UNKNOWN_STATE) {
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kdWarning() << "found battery with unknown state,"
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<< " do nothing" << endl;
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} else {
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if (_charging_state != bat->getChargingState()) {
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// This should only happen if one is in
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// state CHARGING and the other in DISCHARGING
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kdWarning() << "Unexpected chargingstates" << endl;
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_charging_state = UNKNOWN_STATE;
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}
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}
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}
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// handle remaining percentage
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if (bat->getPercentage() >= 0) {
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_percent = (_percent + bat->getPercentage()) / _present_batteries;
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}
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if (bat->getRemainingMinutes() >= 0) {
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_minutes += bat->getRemainingMinutes();
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}
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if (bat->getPresentRate() >= 0) {
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_present_rate += bat->getPresentRate();
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}
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if (!bat->getChargelevelUnit().isEmpty()) {
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present_rate_unit = bat->getChargelevelUnit();
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}
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}
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}
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}
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bool _changed = false;
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if (_charging_state != charging_state) {
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charging_state = _charging_state;
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_changed = true;
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emit batteryChargingStateChanged (charging_state);
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}
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if (_percent != remaining_percent || force_level_recheck) {
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remaining_percent = _percent;
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if (_present_batteries < 1) {
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/* there are no batteries present, we don't need to emit
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a event, there is nothing ... */
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state = BAT_NONE;
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}else if (remaining_percent <= crit_level) {
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if (state != BAT_CRIT) {
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state = BAT_CRIT;
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emit batteryWarnState( type, BAT_CRIT );
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}
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} else if (remaining_percent <= low_level) {
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if (state != BAT_LOW) {
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state = BAT_LOW;
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emit batteryWarnState( type, BAT_LOW );
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}
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} else if (remaining_percent <= warn_level) {
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if (state != BAT_WARN) {
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state = BAT_WARN;
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emit batteryWarnState( type, BAT_WARN );
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}
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} else if (state != BAT_NONE) {
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if (state != BAT_NORM) {
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state = BAT_NORM;
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emit batteryWarnState( type, BAT_NORM );
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}
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} else {
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state = BAT_NONE;
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}
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_changed = true;
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emit batteryPercentageChanged (remaining_percent );
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}
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if (_minutes != remaining_minutes) {
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remaining_minutes = _minutes;
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_changed = true;
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emit batteryMinutesChanged( remaining_minutes );
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}
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if (_present_batteries != present_batteries) {
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present_batteries = _present_batteries;
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_changed = true;
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emit batteryPresentChanged ( present_batteries );
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}
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if (_present_rate != present_rate ) {
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present_rate = _present_rate;
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// don't set to changed, this avoid useless calls
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emit batteryRateChanged ();
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}
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if (_changed)
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emit batteryChanged();
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kdDebugFuncOut(trace);
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return true;
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} else {
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kdError() << "Could not refresh battery information, BatteryList was empty" << endl;
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initDefault();
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kdDebugFuncOut(trace);
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return false;
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}
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}
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//! check if the given udi is already handled by this collection
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bool BatteryCollection::isBatteryHandled( TQString udi ) {
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return udis.contains( udi );
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}
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// ---> write private members SECTION : START <----
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//! get the unit for charge level stuff
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TQString BatteryCollection::getChargeLevelUnit() const {
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return present_rate_unit;
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}
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//! get the current reported battery rate
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double BatteryCollection::getCurrentRate() const {
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return present_rate;
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}
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//! get the cumulative remaining time
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int BatteryCollection::getRemainingMinutes() const {
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return remaining_minutes;
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}
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//! get the cumulative remaining percentage of the battery capacity
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int BatteryCollection::getRemainingPercent() const {
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return remaining_percent;
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}
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//! get the current Charging state of the machine
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int BatteryCollection::getChargingState() const {
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return charging_state;
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}
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//! get the current battery state for this collection
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int BatteryCollection::getBatteryState() const {
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return state;
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}
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//! get the number of available batteries
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int BatteryCollection::getNumBatteries() const {
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return udis.count();
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}
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//! get the number of present batteries, represent \ref present_batteries
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int BatteryCollection::getNumPresentBatteries() const {
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return present_batteries;
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}
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//! get the battery Type from enum \ref BAT_TYPE
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int BatteryCollection::getBatteryType() const {
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return type;
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}
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//! sets the chargelevel in percent when battery should go into state warning
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/*!
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* \return boolean with result of the operation
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* \retval true if successful
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* \retval false else, if a error occurs
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*/
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bool BatteryCollection::setWarnLevel(int _warn_level) {
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kdDebugFuncIn(trace);
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if (_warn_level < low_level) {
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kdError() << "Refuse: " << _warn_level
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<< " as it is smaller than the LowLevel: " << low_level << endl;
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kdDebugFuncOut(trace);
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return false;
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} else {
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warn_level = _warn_level;
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kdDebugFuncOut(trace);
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return true;
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}
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}
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//! sets the chargelevel in percent when battery should go into state low
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/*!
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* \return boolean with result of the operation
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* \retval true if successful
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* \retval false else, if a error occurs
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*/
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bool BatteryCollection::setLowLevel(int _low_level) {
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kdDebugFuncIn(trace);
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if (_low_level < crit_level || _low_level > warn_level) {
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kdError() << "Refuses: " << _low_level
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<< " as it is not between WarnLevel: " << warn_level
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<< " and CritLevel: " << crit_level << endl;
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kdDebugFuncOut(trace);
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return false;
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} else {
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low_level = _low_level;
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kdDebugFuncOut(trace);
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return true;
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}
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}
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//! sets the chargelevel in percent when battery should go into state critical
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/*!
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* \return boolean with result of the operation
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* \retval true if successful
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* \retval false else, if a error occurs
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*/
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bool BatteryCollection::setCritLevel(int _crit_level) {
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kdDebugFuncIn(trace);
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if (_crit_level > low_level) {
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kdError() << "Refuses " << _crit_level
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<< " as it is bigger than LowLevel: " << low_level << endl;
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kdDebugFuncOut(trace);
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return false;
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} else {
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crit_level = _crit_level;
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kdDebugFuncOut(trace);
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return true;
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}
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}
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// ---> write private members SECTION : END <----
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// ---> get private members SECTION : START <----
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//! reports the chargelevel in percent when battery goes to state warning
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int BatteryCollection::getWarnLevel() const {
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return warn_level;
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}
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//! reports the chargelevel in percent when battery goes to state low
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int BatteryCollection::getLowLevel() const {
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return low_level;
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}
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//! reports the chargelevel in percent when battery goes to state critical
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int BatteryCollection::getCritLevel() const {
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return crit_level;
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}
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// ---> get private members SECTION : END <----
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#include "hardware_batteryCollection.moc"
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