src/status.cpp - net/nload - Rivoreo Source Code Repositories

 /***************************************************************************
                                  status.cpp
                              -------------------
     begin                : Sat Sep 29 2001
     copyright            : (C) 2001 - 2003 by Roland Riegel
     email                : feedback@roland-riegel.de
  ***************************************************************************/

 /***************************************************************************
  *                                                                         *
  *   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 "status.h"
 #include "window.h"
 #include "options.h"

 Status::Status()
 {
 	m_min = m_max = m_cur = m_total = 0;
 	m_averagesmoothness = 0;
 }

 Status::~Status()
 {
 }

 //new traffic measurement has been made => update statistics
 void Status::update( unsigned long new_value, unsigned long new_total )
 {

 	m_cur = new_value;
 	minMax( m_cur ); //calculate new min/max traffic values
 	updateAverage( m_cur ); //calculate new average

 	/*
 	 *set new total transfered data
 	 *the following is a workaround for the value limitations of the
 	 *unsigned int variable used in the kernel to produce
 	 *the /proc/net/dev file
 	 *(the total bytes value reaches 4GB and then switches to 0)
 	 */
 	if( new_total < ( m_total % UINT_MAX ) )
 		m_total = ( ( m_total / UINT_MAX ) + 1 ) * UINT_MAX + new_total;
 	else
 		m_total = ( m_total / UINT_MAX ) * UINT_MAX + new_total;

 }

 //print statistics
 void Status::print( Window& window, int x, int y, status_format traff_format, status_format data_format )
 {
 	unsigned long value;
 	char fText[100] = "";
 	string unit_string;
 	float unit_factor;

 	//print current traffic
 	window.setXY( x, y );
 	getUnit( traff_format, m_cur, unit_string, unit_factor );
 	sprintf( fText, "Curr: %.2f %s/s\n", m_cur / unit_factor, unit_string.c_str() );
 	window.print( fText );

 	//print average traffic
 	window.setX( x );
 	value = calcAverage();
 	getUnit( traff_format, value, unit_string, unit_factor );
 	sprintf( fText, "Avg: %.2f %s/s\n", value / unit_factor, unit_string.c_str() );
 	window.print( fText );

 	//print min traffic since nload start
 	window.setX( x );
 	getUnit( traff_format, m_min, unit_string, unit_factor );
 	sprintf( fText, "Min: %.2f %s/s\n", m_min / unit_factor, unit_string.c_str() );
 	window.print( fText );

 	//print max traffic since nload start
 	window.setX( x );
 	getUnit( traff_format, m_max, unit_string, unit_factor );
 	sprintf( fText, "Max: %.2f %s/s\n", m_max / unit_factor, unit_string.c_str() );
 	window.print( fText );

 	//print total traffic since last system reboot
 	window.setX( x );
 	getUnit( data_format, m_total, unit_string, unit_factor );
 	sprintf( fText, "Ttl: %.2f %s\n", m_total / unit_factor, unit_string.c_str() );
 	window.print( fText );
 }

 //reset all displayed values to zero
 void Status::resetTrafficData()
 {
 	m_cur = m_min = m_max = m_total = 0;
 	m_average_values.clear();
 }

 //determine the matching unit string, e.g. "kBit" for status_format::kilobit, and
 //the matching conversion factor between Byte and e.g. status_format::kilobit
 void Status::getUnit( status_format format, long long value, string& description, float& factor )
 {
 	factor = (float) 1 / ( format % 2 == 0 ? 8 : 1 );
 	description = format % 2 == 0 ? "Bit" : "Byte";

 	switch( format )
 	{
 		case human_readable_bit:
 		case human_readable_byte:
 			factor *= 1024 * 1024 * 1024;
 			for( int i = 3; i >= 0; i-- )
 			{
 				if ( value * ( format % 2 == 0 ? 8 : 1 ) >= factor )
 					switch(i)
 					{
 						case 3:
 							description = 'G' + description;
 							return;
 						case 2:
 							description = 'M' + description;
 							return;
 						case 1:
 							description = 'k' + description;
 							return;
 						default:
 							return;
 					}
 				factor /= 1024;
 			}
 			return;
 		case bit:
 		case byte:
 			return;
 		case kilobit:
 		case kilobyte:
 			factor *= 1024;
 			description = 'k' + description;
 			return;
 		case megabit:
 		case megabyte:
 			factor *= 1024 * 1024;
 			description = 'M' + description;
 			return;
 		case gigabit:
 		case gigabyte:
 			factor *= 1024 * 1024 * 1024;
 			description = 'G' + description;
 			return;
 		default: //should never be executed
 			return;
 	}

 }

 //calculate min and max traffic values
 void Status::minMax( unsigned long new_value )
 {

 	//if this is the first time call, set min/max to current value
 	if( m_min == 0 && m_max == 0 )
 	{
 		m_min = new_value;
 		m_max = new_value;
 		return;
 	}

 	m_min = new_value < m_min ? new_value : m_min;

 	m_max = new_value > m_max ? new_value : m_max;

 }

 //set the "reaction time" to the current traffic situation of the average values
 void Status::setAverageSmoothness( OptionInt* new_averagesmoothness )
 {
 	m_averagesmoothness = new_averagesmoothness;
 }

 //put new value into average calculation
 void Status::updateAverage( unsigned long new_value )
 {

 	/*
 	 * average calculation is not very good at the moment as it is dependent
 	 * from the display refresh interval.
 	 * could need some help here.
 	 */

 	m_average_values.push_front( new_value );

 	//limit value count dependent of the average smoothness
 	//ranges between 1 * 45 and 9 * 45 single values
 	while( m_average_values.size() > (unsigned int) *m_averagesmoothness * 45 )
 	{
 		m_average_values.pop_back();
 	}

 }

 //calculate current average
 unsigned long Status::calcAverage()
 {
 	if( m_average_values.size() == 0 ) return 0;

 	unsigned long sum = 0;
 	for( list<unsigned long>::const_iterator i = m_average_values.begin(); i != m_average_values.end(); i++ )
 	{
 		sum += (*i);
 	}

 	return sum / m_average_values.size();
 }

 int Status::averageSmoothness()
 {
 	int avg_smooth =  m_averagesmoothness ? (int) *m_averagesmoothness : STANDARD_AVERAGE_SMOOTHNESS;
 	return avg_smooth > 9 ? 9 : ( avg_smooth < 1 ? 1 : avg_smooth );
 }
	/***************************************************************************
	status.cpp
	-------------------
	begin : Sat Sep 29 2001
	copyright : (C) 2001 - 2003 by Roland Riegel
	email : feedback@roland-riegel.de
	***************************************************************************/

	/***************************************************************************
	* *
	* 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 "status.h"
	#include "window.h"
	#include "options.h"

	Status::Status()
	{
	m_min = m_max = m_cur = m_total = 0;
	m_averagesmoothness = 0;
	}

	Status::~Status()
	{
	}

	//new traffic measurement has been made => update statistics
	void Status::update( unsigned long new_value, unsigned long new_total )
	{

	m_cur = new_value;
	minMax( m_cur ); //calculate new min/max traffic values
	updateAverage( m_cur ); //calculate new average

	/*
	*set new total transfered data
	*the following is a workaround for the value limitations of the
	*unsigned int variable used in the kernel to produce
	*the /proc/net/dev file
	*(the total bytes value reaches 4GB and then switches to 0)
	*/
	if( new_total < ( m_total % UINT_MAX ) )
	m_total = ( ( m_total / UINT_MAX ) + 1 ) * UINT_MAX + new_total;
	else
	m_total = ( m_total / UINT_MAX ) * UINT_MAX + new_total;

	}

	//print statistics
	void Status::print( Window& window, int x, int y, status_format traff_format, status_format data_format )
	{
	unsigned long value;
	char fText[100] = "";
	string unit_string;
	float unit_factor;

	//print current traffic
	window.setXY( x, y );
	getUnit( traff_format, m_cur, unit_string, unit_factor );
	sprintf( fText, "Curr: %.2f %s/s\n", m_cur / unit_factor, unit_string.c_str() );
	window.print( fText );

	//print average traffic
	window.setX( x );
	value = calcAverage();
	getUnit( traff_format, value, unit_string, unit_factor );
	sprintf( fText, "Avg: %.2f %s/s\n", value / unit_factor, unit_string.c_str() );
	window.print( fText );

	//print min traffic since nload start
	window.setX( x );
	getUnit( traff_format, m_min, unit_string, unit_factor );
	sprintf( fText, "Min: %.2f %s/s\n", m_min / unit_factor, unit_string.c_str() );
	window.print( fText );

	//print max traffic since nload start
	window.setX( x );
	getUnit( traff_format, m_max, unit_string, unit_factor );
	sprintf( fText, "Max: %.2f %s/s\n", m_max / unit_factor, unit_string.c_str() );
	window.print( fText );

	//print total traffic since last system reboot
	window.setX( x );
	getUnit( data_format, m_total, unit_string, unit_factor );
	sprintf( fText, "Ttl: %.2f %s\n", m_total / unit_factor, unit_string.c_str() );
	window.print( fText );
	}

	//reset all displayed values to zero
	void Status::resetTrafficData()
	{
	m_cur = m_min = m_max = m_total = 0;
	m_average_values.clear();
	}

	//determine the matching unit string, e.g. "kBit" for status_format::kilobit, and
	//the matching conversion factor between Byte and e.g. status_format::kilobit
	void Status::getUnit( status_format format, long long value, string& description, float& factor )
	{
	factor = (float) 1 / ( format % 2 == 0 ? 8 : 1 );
	description = format % 2 == 0 ? "Bit" : "Byte";

	switch( format )
	{
	case human_readable_bit:
	case human_readable_byte:
	factor = 1024 1024 * 1024;
	for( int i = 3; i >= 0; i-- )
	{
	if ( value * ( format % 2 == 0 ? 8 : 1 ) >= factor )
	switch(i)
	{
	case 3:
	description = 'G' + description;
	return;
	case 2:
	description = 'M' + description;
	return;
	case 1:
	description = 'k' + description;
	return;
	default:
	return;
	}
	factor /= 1024;
	}
	return;
	case bit:
	case byte:
	return;
	case kilobit:
	case kilobyte:
	factor *= 1024;
	description = 'k' + description;
	return;
	case megabit:
	case megabyte:
	factor = 1024 1024;
	description = 'M' + description;
	return;
	case gigabit:
	case gigabyte:
	factor = 1024 1024 * 1024;
	description = 'G' + description;
	return;
	default: //should never be executed
	return;
	}

	}

	//calculate min and max traffic values
	void Status::minMax( unsigned long new_value )
	{

	//if this is the first time call, set min/max to current value
	if( m_min == 0 && m_max == 0 )
	{
	m_min = new_value;
	m_max = new_value;
	return;
	}

	m_min = new_value < m_min ? new_value : m_min;

	m_max = new_value > m_max ? new_value : m_max;

	}

	//set the "reaction time" to the current traffic situation of the average values
	void Status::setAverageSmoothness( OptionInt* new_averagesmoothness )
	{
	m_averagesmoothness = new_averagesmoothness;
	}

	//put new value into average calculation
	void Status::updateAverage( unsigned long new_value )
	{

	/*
	* average calculation is not very good at the moment as it is dependent
	* from the display refresh interval.
	* could need some help here.
	*/

	m_average_values.push_front( new_value );

	//limit value count dependent of the average smoothness
	//ranges between 1 * 45 and 9 * 45 single values
	while( m_average_values.size() > (unsigned int) m_averagesmoothness 45 )
	{
	m_average_values.pop_back();
	}

	}

	//calculate current average
	unsigned long Status::calcAverage()
	{
	if( m_average_values.size() == 0 ) return 0;

	unsigned long sum = 0;
	for( list<unsigned long>::const_iterator i = m_average_values.begin(); i != m_average_values.end(); i++ )
	{
	sum += (*i);
	}

	return sum / m_average_values.size();
	}

	int Status::averageSmoothness()
	{
	int avg_smooth = m_averagesmoothness ? (int) *m_averagesmoothness : STANDARD_AVERAGE_SMOOTHNESS;
	return avg_smooth > 9 ? 9 : ( avg_smooth < 1 ? 1 : avg_smooth );
	}