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/*
* AbstractRepresentationStream.cpp
*****************************************************************************
* Copyright (C) 2012, bitmovin Softwareentwicklung OG, All Rights Reserved
*
* Email: libdash-dev@vicky.bitmovin.net
*
* This source code and its use and distribution, is subject to the terms
* and conditions of the applicable license agreement.
*****************************************************************************/
#include "AbstractRepresentationStream.h"
using namespace libdash::framework::mpd;
using namespace dash::mpd;
AbstractRepresentationStream::AbstractRepresentationStream(viper::managers::StreamType type, IMPDWrapper *mpdWrapper, IPeriod *period, IAdaptationSet *adaptationSet, IRepresentation *representation) :
type (type),
mpdWrapper (mpdWrapper),
period (period),
adaptationSet (adaptationSet),
representation (representation)
{
}
AbstractRepresentationStream::~AbstractRepresentationStream()
{
}
void AbstractRepresentationStream::setBaseUrls(const std::vector<dash::mpd::IBaseUrl *> baseurls)
{
this->baseUrls.clear();
for (size_t i = 0; i < baseurls.size(); i++)
this->baseUrls.push_back(baseurls.at(i));
}
uint32_t AbstractRepresentationStream::getSize()
{
return UINT32_MAX - 1;
}
uint32_t AbstractRepresentationStream::getFirstSegmentNumber()
{
if (this->mpdWrapper->getTypeWithoutLock() == "dynamic")
{
uint32_t currTime = TimeResolver::getCurrentTimeInSec();
uint32_t availStT = TimeResolver::getUTCDateTimeInSec(this->mpdWrapper->getAvailabilityStarttime());
uint32_t duration = this->getAverageSegmentDuration();
uint32_t timeshift = TimeResolver::getDurationInSec(this->mpdWrapper->getTimeShiftBufferDepth());
uint32_t timescale = this->getTimescale();
return (double)((double)currTime - (double)availStT - (double)timeshift ) < 0? 0 : (currTime - availStT - timeshift );
}
return 0;
}
uint32_t AbstractRepresentationStream::getCurrentSegmentNumber()
{
if (this->mpdWrapper->getTypeWithoutLock() == "dynamic")
{
uint32_t currTime = TimeResolver::getCurrentTimeInSec();
uint32_t duration = this->getAverageSegmentDuration();
uint32_t availStT = TimeResolver::getUTCDateTimeInSec(this->mpdWrapper->getAvailabilityStarttime());
return (double)((double)currTime - (double)availStT) < 0 ? 0 : (currTime - availStT);
// return (currTime - duration - availStT) / duration;
}
return 0;
}
uint32_t AbstractRepresentationStream::getLastSegmentNumber ()
{
if (this->mpdWrapper->getTypeWithoutLock() == "dynamic")
{
uint32_t currTime = TimeResolver::getCurrentTimeInSec();
uint32_t duration = this->getAverageSegmentDuration();
uint32_t availStT = TimeResolver::getUTCDateTimeInSec(this->mpdWrapper->getAvailabilityStarttime());
uint32_t checkTime = mpdWrapper->getFetchTime() +
TimeResolver::getDurationInSec(this->mpdWrapper->getMinimumUpdatePeriodWithoutLock());
return ( ((checkTime > currTime) ? currTime : checkTime) - duration - availStT) / duration;
}
return 0;
}
uint32_t AbstractRepresentationStream::getAverageSegmentDuration()
{
return 1;
}
uint32_t AbstractRepresentationStream::getTimescale ()
{
return 1;
}
void AbstractRepresentationStream::setSegmentOffset (uint32_t offset)
{
this->segmentOffset = offset;
}
uint32_t AbstractRepresentationStream::getTime(size_t segmentNumber)
{
return 0;
}
size_t AbstractRepresentationStream::getSegmentNumber(uint32_t time)
{
return 0;
}
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