CTimerd::TimerList CTimerdClient::getOverlappingTimers(time_t& startTime, time_t& stopTime) { CTimerd::TimerList timerlist; CTimerd::TimerList overlapping; int timerPre; int timerPost; getTimerList(timerlist); getRecordingSafety(timerPre,timerPost); for (CTimerd::TimerList::iterator it = timerlist.begin(); it != timerlist.end();++it) { if(it->stopTime != 0 && stopTime != 0) { // Check if both timers have start and end. In this case do not show conflict, if endtime is the same than the starttime of the following timer if ((stopTime+timerPost > it->alarmTime) && (startTime-timerPre < it->stopTime)) { overlapping.push_back(*it); } } else { if (!((stopTime < it->announceTime) || (startTime > it->stopTime))) { overlapping.push_back(*it); } } } return overlapping; }
void CControlAPI::SendTimers(CWebserverRequest* request) { CTimerd::TimerList timerlist; // List of bouquets timerlist.clear(); Parent->Timerd->getTimerList(timerlist); CZapitClient::BouquetChannelList channellist; channellist.clear(); CTimerd::TimerList::iterator timer = timerlist.begin(); for(; timer != timerlist.end();timer++) { // Add Data char zAddData[20+1]={0}; switch(timer->eventType) { case CTimerd::TIMER_NEXTPROGRAM : case CTimerd::TIMER_ZAPTO : case CTimerd::TIMER_RECORD : { if(channellist.size()==0) { Parent->Zapit->getChannels(channellist); } CZapitClient::BouquetChannelList::iterator channel = channellist.begin(); for(; channel != channellist.end();channel++) { if(channel->channel_id==timer->channel_id) { strncpy(zAddData, channel->name, 20); zAddData[20]=0; break; } } if(channel == channellist.end()) strcpy(zAddData,"Unknown"); } break; case CTimerd::TIMER_STANDBY : { sprintf(zAddData,"Standby: %s",(timer->standby_on ? "ON" : "OFF")); } break; default:{} } request->printf("%d %d %d %d %d %d %s\n",timer->eventID,(int)timer->eventType, (int)timer->eventRepeat,(int)timer->announceTime, (int)timer->alarmTime,(int)timer->stopTime,zAddData); } }
int CFollowScreenings::exec(CMenuTarget* /*parent*/, const std::string & actionKey) { unsigned long a; if (1 == sscanf(actionKey.c_str(), "%lu", &a)) { int ix = 0; CChannelEventList::iterator e; for (e = followlist.begin(); e != followlist.end(); e++, ix++) if ((time_t)a == e->startTime) { time_t start = e->startTime - (ANNOUNCETIME + 120); time_t stop = e->startTime + e->duration; CTimerd::TimerList overlappingTimers = Timer.getOverlappingTimers(start, stop); CTimerd::TimerList::iterator i; for (i = overlappingTimers.begin(); i != overlappingTimers.end(); i++) if (i->eventType == CTimerd::TIMER_RECORD) { if (channel_id == i->channel_id && e->startTime == i->epg_starttime) { Timer.removeTimerEvent(i->eventID); if (!forwarders.empty()) forwarders[ix]->iconName_Info_right = ""; #if 0 else ShowMsg(LOCALE_TIMER_EVENTREMOVED_TITLE, LOCALE_TIMER_EVENTREMOVED_MSG, CMessageBox::mbrBack, CMessageBox::mbBack, NEUTRINO_ICON_INFO); #endif return menu_return::RETURN_REPAINT; } if (!SAME_TRANSPONDER(channel_id, i->channel_id)) { if (!askUserOnTimerConflict(start, stop, channel_id)) return menu_return::RETURN_REPAINT; } } if (g_Timerd->addRecordTimerEvent(channel_id, e->startTime, e->startTime + e->duration, e->eventID, e->startTime, e->startTime - (ANNOUNCETIME + 120 ), apids, true, e->startTime - (ANNOUNCETIME + 120) > time(NULL), recDir, true) == -1) { //FIXME -- no error handling, but this shouldn't happen ... } else { if (!forwarders.empty()) forwarders[ix]->iconName_Info_right = NEUTRINO_ICON_REC; #if 0 else ShowMsg(LOCALE_TIMER_EVENTRECORD_TITLE, LOCALE_TIMER_EVENTRECORD_MSG, CMessageBox::mbrBack, CMessageBox::mbBack, NEUTRINO_ICON_INFO); #endif return menu_return::RETURN_REPAINT; } break; // for } return menu_return::RETURN_EXIT_ALL; } show(); return menu_return::RETURN_EXIT_ALL; }
void CFollowScreenings::updateRightIcon(int ix, time_t start, unsigned int duration) { time_t stop = start + duration; start -= (ANNOUNCETIME + 120); CTimerd::TimerList overlappingTimers = Timer.getOverlappingTimers(start, stop); start += (ANNOUNCETIME + 120); CTimerd::TimerList::iterator i; for (i = overlappingTimers.begin(); i != overlappingTimers.end(); i++) if (i->eventType == CTimerd::TIMER_RECORD) { if (channel_id == i->channel_id && start == i->epg_starttime) { forwarders[ix]->iconName_Info_right = NEUTRINO_ICON_REC; return; } if (!SAME_TRANSPONDER(channel_id, i->channel_id)) { forwarders[ix]->iconName_Info_right = NEUTRINO_ICON_IMPORTANT; return; } } }
/* int CTimerdClient::addTimerEvent( CTimerEventTypes evType, void* data , int min, int hour, int day, int month, CTimerd::CTimerEventRepeat evrepeat) { time_t actTime_t; time(&actTime_t); struct tm* actTime = localtime(&actTime_t); actTime->tm_min = min; actTime->tm_hour = hour; if (day > 0) actTime->tm_mday = day; if (month > 0) actTime->tm_mon = month -1; addTimerEvent(evType,true,data,0,mktime(actTime),0); } */ bool CTimerdClient::checkDouble(CTimerd::CTimerEventTypes evType, void* data, time_t announcetime, time_t alarmtime,time_t stoptime, CTimerd::CTimerEventRepeat evrepeat, uint32_t repeatcount) { if (evType != CTimerd::TIMER_RECORD && evType != CTimerd::TIMER_ZAPTO) return false;//skip check not zap and record timer CTimerd::TimerList timerlist; getTimerList(timerlist); for (CTimerd::TimerList::iterator it = timerlist.begin(); it != timerlist.end();++it) { if ( (it->eventType == CTimerd::TIMER_RECORD || it->eventType == CTimerd::TIMER_ZAPTO ) && (it->alarmTime == alarmtime && it->announceTime == announcetime && it->stopTime == stoptime && it->eventRepeat == evrepeat && it->repeatCount == repeatcount ) ) { if( it->eventType == CTimerd::TIMER_ZAPTO ) { CTimerd::EventInfo *ei=static_cast<CTimerd::EventInfo*>(data); if( ei->channel_id == it->channel_id ) { if(( ei->epgID != 0 && ei->epgID != it->epgID ) || ( ei->epg_starttime != 0 && it->epg_starttime != ei->epg_starttime) ) { return false;//not double } return true; } } else if(it->eventType == CTimerd::TIMER_RECORD) { CTimerd::RecordingInfo *ri=static_cast<CTimerd::RecordingInfo*>(data); if(ri->channel_id == it->channel_id && ri->apids == it->apids && !strncmp(ri->recordingDir, it->recordingDir, RECORD_DIR_MAXLEN-1) ) { if( ( ri->epgID != 0 && ri->epgID != it->epgID ) || ( ri->epg_starttime != 0 && it->epg_starttime != ri->epg_starttime) ) { return false;//not double } return true; } } } } return false;//not double }
//------------------------------------------------------------------------- // Template 1:classname, 2:zAlarmTime, 3: zStopTime, 4:zRep, 5:zRepCouunt // 6:zType, 7:sAddData, 8:timer->eventID, 9:timer->eventID //------------------------------------------------------------------------- std::string CNeutrinoYParser::func_get_timer_list(CyhookHandler *, std::string para) { std::string yresult; CTimerd::TimerList timerlist; // List of bouquets timerlist.clear(); NeutrinoAPI->Timerd->getTimerList(timerlist); sort(timerlist.begin(), timerlist.end()); CZapitClient::BouquetChannelList channellist_tv; CZapitClient::BouquetChannelList channellist_radio; channellist_tv.clear(); channellist_radio.clear(); int i = 1; char classname= 'a'; CTimerd::TimerList::iterator timer = timerlist.begin(); for(; timer != timerlist.end();++timer) { classname = (i++&1)?'a':'b'; // build alarm/stoptime char zAlarmTime[25] = {0}; struct tm *alarmTime = localtime(&(timer->alarmTime)); strftime(zAlarmTime,20,"%d.%m. %H:%M",alarmTime); char zAnnounceTime[25] = {0}; struct tm *announceTime = localtime(&(timer->announceTime)); strftime(zAnnounceTime,20,"%d.%m. %H:%M",announceTime); char zStopTime[25] = {0}; if(timer->stopTime > 0) { struct tm *stopTime = localtime(&(timer->stopTime)); strftime(zStopTime,20,"%d.%m. %H:%M",stopTime); } // repeat std::string zRep = NeutrinoAPI->timerEventRepeat2Str(timer->eventRepeat); std::string zRepCount; if (timer->eventRepeat == CTimerd::TIMERREPEAT_ONCE) zRepCount = "-"; else zRepCount = (timer->repeatCount == 0) ? "∞" : string_printf("%dx",timer->repeatCount); // timer type std::string zType = NeutrinoAPI->timerEventType2Str(timer->eventType); // Add Data std::string sAddData=""; switch(timer->eventType) { //case CTimerd::TIMER_NEXTPROGRAM : case CTimerd::TIMER_ZAPTO : case CTimerd::TIMER_RECORD : { sAddData = NeutrinoAPI->GetServiceName(timer->channel_id); if (sAddData.empty()) sAddData = CServiceManager::getInstance()->IsChannelTVChannel(timer->channel_id) ? "Unknown TV-Channel" : "Unknown Radio-Channel"; if( timer->apids != TIMERD_APIDS_CONF) { std::string separator = ""; sAddData += '('; if( timer->apids & TIMERD_APIDS_STD ) { sAddData += "STD"; separator = "/"; } if( timer->apids & TIMERD_APIDS_ALT ) { sAddData += separator; sAddData += "ALT"; separator = "/"; } if( timer->apids & TIMERD_APIDS_AC3 ) { sAddData += separator; sAddData += "AC3"; separator = "/"; } sAddData += ')'; } if(timer->epgID!=0) { CEPGData epgdata; if (CEitManager::getInstance()->getEPGid(timer->epgID, timer->epg_starttime, &epgdata)) sAddData+="<br/>" + epgdata.title; else sAddData+=std::string("<br/>")+timer->epgTitle; } else sAddData+=std::string("<br/>")+timer->epgTitle; } break; case CTimerd::TIMER_STANDBY : { sAddData = "Standby: "; if(timer->standby_on) sAddData+= "An"; else sAddData+="Aus"; } break; case CTimerd::TIMER_REMIND : sAddData = std::string(timer->message).substr(0,20); break; case CTimerd::TIMER_EXEC_PLUGIN : sAddData = std::string(timer->pluginName); break; default:{} } yresult += string_printf(para.c_str(), classname, zAlarmTime, zStopTime, zRep.c_str(), zRepCount.c_str(), zType.c_str(), sAddData.c_str(),timer->eventID,timer->eventID); } //classname = (i++&1)?'a':'b'; return yresult; }