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ktorrent/libktorrent/torrent/timeestimator.cpp

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/***************************************************************************
* Copyright (C) 2006 by Ivan Vasić *
* ivasic@gmail.com *
* *
* 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. *
* *
* 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. *
***************************************************************************/
#include <math.h>
#include "timeestimator.h"
#include "torrentcontrol.h"
#include "settings.h"
#include <torrent/globals.h>
#include <util/log.h>
#include <util/constants.h>
using namespace kt;
namespace bt
{
TimeEstimator::TimeEstimator(TorrentControl* tc)
: m_tc(tc)
{
m_samples = new SampleQueue(20);
m_lastAvg = 0;
m_perc = -1;
//default is KT algorithm
m_algorithm = (ETAlgorithm) Settings::eta();
}
TimeEstimator::~TimeEstimator()
{
delete m_samples;
}
Uint32 TimeEstimator::estimate()
{
const TorrentStats& s = m_tc->getStats();
// only estimate when we are downloading or stalled
if (!(s.status == kt::DOWNLOADING || s.status == kt::STALLED))
return (Uint32) - 1;
//ones without pre-calculations
switch (m_algorithm)
{
case ETA_CSA:
return estimateCSA();
case ETA_GASA:
return estimateGASA();
case ETA_KT:
return estimateKT();
}
//complicated ones :)
Uint32 sample = (Uint32) s.download_rate;
//push new sample
m_samples->push(sample);
switch (m_algorithm)
{
case ETA_MAVG:
return estimateMAVG();
case ETA_WINX:
return estimateWINX();
default:
return -1;
}
}
Uint32 TimeEstimator::estimateCSA()
{
const TorrentStats& s = m_tc->getStats();
if (s.download_rate == 0)
return (Uint32) - 1;
return (int)floor((float)s.bytes_left_to_download / (float)s.download_rate);
}
Uint32 TimeEstimator::estimateGASA()
{
const TorrentStats& s = m_tc->getStats();
if (m_tc->getRunningTimeDL() > 0 && s.bytes_downloaded > 0)
{
double avg_speed = (double) s.bytes_downloaded / (double) m_tc->getRunningTimeDL();
return (Uint32) floor((double) s.bytes_left_to_download / avg_speed);
}
return (Uint32) - 1;
}
Uint32 TimeEstimator::estimateWINX()
{
const TorrentStats& s = m_tc->getStats();
if (m_samples->sum() > 0 && m_samples->count() > 0)
return (Uint32) floor((double) s.bytes_left_to_download / ((double) m_samples->sum() / (double) m_samples->count()));
return (Uint32) - 1;
}
Uint32 TimeEstimator::estimateMAVG()
{
const TorrentStats& s = m_tc->getStats();
if (m_samples->count() > 0)
{
double lavg;
if (m_lastAvg == 0)
lavg = (Uint32) m_samples->sum() / m_samples->count();
else
lavg = m_lastAvg - ((double) m_samples->first() / (double) m_samples->count()) + ((double) m_samples->last() / (double) m_samples->count());
m_lastAvg = (Uint32) floor(lavg);
if (lavg > 0)
return (Uint32) floor((double) s.bytes_left_to_download / ((lavg + (m_samples->sum() / m_samples->count())) / 2));
return (Uint32) - 1;
}
return (Uint32) - 1;
}
}
bt::SampleQueue::SampleQueue(int max)
: m_size(max), m_count(0)
{
m_samples = new Uint32[max];
for (int i = 0; i < m_size; ++i)
m_samples[i] = 0;
m_end = -1;
m_start = 0;
}
bt::SampleQueue::~ SampleQueue()
{
delete [] m_samples;
}
void bt::SampleQueue::push(Uint32 sample)
{
if (m_count < m_size)
{
//it's not full yet
m_samples[(++m_end) % m_size ] = sample;
m_count++;
return;
}
//since it's full I'll just replace the oldest value with new one and update all variables.
m_end = (++m_end) % m_size;
m_start = (++m_start) % m_size;
m_samples[m_end] = sample;
}
Uint32 bt::SampleQueue::first()
{
return m_samples[m_start];
}
Uint32 bt::SampleQueue::last()
{
return m_samples[m_end];
}
bool bt::SampleQueue::isFull()
{
return m_count >= m_size;
}
int bt::SampleQueue::count()
{
return m_count;
}
Uint32 bt::SampleQueue::sum()
{
Uint32 s = 0;
for (int i = 0; i < m_count; ++i)
s += m_samples[i];
return s;
}
void bt::TimeEstimator::setAlgorithm(const ETAlgorithm& theValue)
{
m_algorithm = theValue;
}
Uint32 bt::TimeEstimator::estimateKT()
{
const TorrentStats& s = m_tc->getStats();
Uint32 sample = (Uint32) s.download_rate;
//push new sample
m_samples->push(sample);
double perc = (double) s.bytes_downloaded / (double) s.total_bytes;
int percentage = (int)(perc) * 100;
//calculate percentage increasement
double delta = 1 - 1 / (perc / m_perc);
//remember last percentage
m_perc = perc;
if (s.bytes_downloaded < 1024*1024*100 && sample > 0) // < 100KB
{
m_lastETA = estimateGASA();
return m_lastETA;
}
if (percentage >= 99 && sample > 0 && s.bytes_left_to_download <= 10*1024*1024*1024) //1% of a very large torrent could be hundreds of MB so limit it to 10MB
{
if (!m_samples->isFull())
{
m_lastETA = estimateWINX();
if (m_lastETA == (Uint32) - 1)
m_lastETA = estimateGASA();
return m_lastETA;
}
else
{
m_lastETA = (Uint32) - 1;
if (delta > 0.0001)
m_lastETA = estimateMAVG();
if (m_lastETA == (Uint32) - 1)
m_lastETA = estimateGASA();
}
return m_lastETA;
}
m_lastETA = estimateGASA();
return m_lastETA;
}
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