}
}
-void eEPGCache::FixOverlapping(std::pair<eventMap,timeMap> &servicemap, time_t TM, int duration, const timeMap::iterator &tm_it, const uniqueEPGKey &service)
+bool eEPGCache::FixOverlapping(std::pair<eventMap,timeMap> &servicemap, time_t TM, int duration, const timeMap::iterator &tm_it, const uniqueEPGKey &service)
{
+ bool ret = false;
timeMap::iterator tmp = tm_it;
while ((tmp->first+tmp->second->getDuration()-300) > TM)
{
}
else
servicemap.second.erase(tmp--);
+ ret = true;
}
else
{
#endif
delete tmp->second;
servicemap.second.erase(tmp++);
+ ret = true;
}
else
++tmp;
if (tmp == servicemap.second.end())
break;
}
+ return ret;
}
void eEPGCache::sectionRead(const __u8 *data, int source, channel_data *channel)
eventData *tmp = ev_it->second;
ev_it->second = tm_it_tmp->second =
new eventData(eit_event, eit_event_size, source);
- FixOverlapping(servicemap, TM, duration, tm_it_tmp, service);
+ if (FixOverlapping(servicemap, TM, duration, tm_it_tmp, service))
+ {
+ prevEventIt = servicemap.first.end();
+ prevTimeIt = servicemap.second.end();
+ }
delete tmp;
goto next;
}
tm_it=prevTimeIt=servicemap.second.insert( prevTimeIt, std::pair<const time_t, eventData*>( TM, evt ) );
}
- FixOverlapping(servicemap, TM, duration, tm_it, service);
-
#ifdef EPG_DEBUG
if ( consistencyCheck )
{
ev_it->first, event_id );
}
#endif
+ if (FixOverlapping(servicemap, TM, duration, tm_it, service))
+ {
+ prevEventIt = servicemap.first.end();
+ prevTimeIt = servicemap.second.end();
+ }
}
next:
#ifdef EPG_DEBUG
currentQueryTsidOnid = (ref.getTransportStreamID().get()<<16) | ref.getOriginalNetworkID().get();
Unlock();
- return 0;
+ return -(m_timemap_cursor == m_timemap_end);
}
Unlock();
return -1;
case 0x0300f5: sid = 0xdc; break;
case 0x0400d2: sid = 0xe2; tsid = 0x11; break;
case 0x1100d3: sid = 0xe3; break;
- case 0x0100e4: sid = 0xe4; break;
+ case 0x0100d4: sid = 0xe4; tsid = 4; break;
}
}
////////////////////////////////////////////