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/**************************************************************************
* Copyright (C) 2006-2007 by Danny Kukawka *
* <[email protected]>, <[email protected]> *
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of version 2 of the GNU General Public License *
* as published by the Free Software Foundation. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License *
* along with this program; if not, write to the *
* Free Software Foundation, Inc., *
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. *
***************************************************************************/
/*!
* \file hardware_batteryCollection.h
* \brief Headerfile for hardware_batteryCollection.cpp and the class \ref BatteryCollection.
*/
/*!
* \class BatteryCollection
* \brief class to collect batteryinformation for a special type of battries
* \author Danny Kukawka, <[email protected]>, <[email protected]>
* \date 2006-2007
*/
#ifndef _BATTERYCOLLECTION_H_
#define _BATTERYCOLLECTION_H_
// Global Header
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
// QT - Header
#include <tqstring.h>
#include <tqstringlist.h>
#include <tqobject.h>
// own Header
#include "hardware_battery.h"
class BatteryCollection : public TQObject {
Q_OBJECT
private:
//! contains the udis of the batteries of this collection
TQStringList udis;
//! contains the rate unit
TQString present_rate_unit;
//! Roletype of battery
/*!
* This int/enum tells what role this battery is used as.
* \li BAT_PRIMARY: Std. battery for normal system operation
* \li BAT_MOUSE: powersupply for wireless mouse
* \li BAT_KEYBOARD: powersupply in wireless keyboards
* \li BAT_KEY_MOUSE: powersupply in combined keyboard+mouse gadgets
* \li BAT_UPS: Battery in UPS systems (step in on outage of mains)
* \li BAT_CAMERA: battery is contained in a connected digital camera
* \li UNKNOWN: Batterytype/role isn't known
*/
int type;
//! Current charging state of the active battery of this collection
/*!
* This int/enum tells if the battery is charged or discharged.
* \li CHARGING: battery gets charged
* \li DISCHARGING: battery get discharged
* \li UNKNOWN_STATE: battery is neither charged nor discharged
*/
int charging_state;
//! Current general state this battery is in
/*!
* This int/enum tells what rough state the battery is currently in.
* \li BAT_NORM: batterylevel is ok
* \li BAT_WARN: battery is soon getting low
* \li BAT_LOW: batterylevel is already low
* \li BAT_CRIT: batterylevel has become really critical
* \li BAT_NONE: battery state not available
* \li BAT_HAL_ERROR: battery state couldn't be retrieved because of a HAL error
*/
int state;
//! Current charge level of battery in percentage
/*!
* This int tells the current charge level of the battery in percent.
* \li a value between 0 and 100
*/
int remaining_percent;
//! Expected minutes unitl fully discharged/charged
/*!
* This int tells the current estimate until the battery is fully
* discharged/charged (with current discharging/charging-rate and last
* full capacity).
* \li a value >= 0
*/
int remaining_minutes;
//! number of present batteries
/*!
* This int tells how many batteries of this type are really present.
* This mean only batteries and not battery slots/bays.
* \li a value >= 0
*/
int present_batteries;
//! number of present batteries
/*!
* This int tells the current rate of the batteries
* \li a value >= 0
*/
int present_rate;
//! charge_level in percent that will put battery into warning state
int warn_level;
//! charge_level in percent that will put battery into low state
int low_level;
//! charge_level in percent that will put battery into critical state
int crit_level;
//! init the battery collection with a default value
void initDefault();
signals:
//! emitted if we switch to a warning state
/*!
* The first int tell the battery type and the second which warning state we reached:
* \li BAT_NORM: batterylevel is ok ... only emitted if we return form BAT_WARN
* \li BAT_WARN: battery is soon getting low
* \li BAT_LOW: batterylevel is already low
* \li BAT_CRIT: batterylevel has become really critical
*/
void batteryWarnState (int type, int state);
//! emitted if the charging state changed
void batteryChargingStateChanged (int changing_state);
//! emitted if the remainig percentage changed
void batteryPercentageChanged (int percent);
//! emitted if the remainig minutes changed
void batteryMinutesChanged (int minutes );
//! emitted if the number of present batteries changed
void batteryPresentChanged (int num );
//! emitted if the present rate changed
void batteryRateChanged ();
//! emitted if any Battery state changed
void batteryChanged();
public:
//! default constructor
BatteryCollection( int type );
//! default destructor
~BatteryCollection();
// functions
//! refresh the information of the collection from the given batterylist
bool refreshInfo(TQPtrList<Battery> BatteryList, bool force_level_recheck = false);
//! check if this collection already handle a special battery/udi
bool isBatteryHandled(TQString udi);
// get internals
//! get the unit for charge level stuff
TQString getChargeLevelUnit() const;
//! get the cumulative remaining time
int getRemainingMinutes() const;
//! get the cumulative remaining percentage of the battery capacity
int getRemainingPercent() const;
//! get the current Charging state of the machine
int getChargingState() const;
//! get the current battery state
int getBatteryState() const;
//! get the number of available batteries
int getNumBatteries() const;
//! get the number of present batteries
int getNumPresentBatteries() const;
//! get the battery Type from enum \ref BAT_TYPE
int getBatteryType() const;
//! get the current battery rate
int getCurrentRate() const;
//! reports the chargelevel in percent when battery goes to state warning
int getWarnLevel() const;
//! reports the chargelevel in percent when battery goes to state low
int getLowLevel() const;
//! reports the chargelevel in percent when battery goes to state critical
int getCritLevel() const;
//! sets the chargelevel in percent when battery should go into state warning
bool setWarnLevel(int _warn_level);
//! sets the chargelevel in percent when battery should go into state low
bool setLowLevel(int _low_level);
//! sets the chargelevel in percent when battery should go into state critical
bool setCritLevel(int _crit_level);
};
#endif
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