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#include "globaltimers.h"
#include "../services/epgsearch.h"
#include "../services/remotetimers.h"
#include "../services/epgtimer.h"
static int CompareTimers(const void *a, const void *b) {
return (*(const cTimer **)a)->Compare(**(const cTimer **)b);
}
bool cGlobalTimers::initial = true;
cRemoteTimerRefresh *cGlobalTimers::remoteTimerRefresh = NULL;
cGlobalTimers::cGlobalTimers(void) : cVector<const cTimer*>(0) {
pEpg2Vdr = cPluginManager::GetPlugin("epg2vdr");
pRemoteTimers = cPluginManager::GetPlugin("remotetimers");
pEpgSearch = cPluginManager::GetPlugin("epgsearch");
localTimer = NULL;
isEpg2VdrTimers = false;
}
cGlobalTimers::~cGlobalTimers(void) {
if (localTimer) {
delete[] localTimer;
}
ClearTimers();
}
void cGlobalTimers::LoadTimers(void) {
isEpg2VdrTimers = false;
bool epg2vdrOk = false;
if (pEpg2Vdr) {
epg2vdrOk = SetEpg2VdrTimers();
}
if (!epg2vdrOk) {
SetLocalTimers();
if (pRemoteTimers) {
SetRemoteTimers(initial);
}
}
initial = false;
}
void cGlobalTimers::SortTimers(void) {
Sort(CompareTimers);
}
void cGlobalTimers::MarkLocalTimers(void) {
if (isEpg2VdrTimers)
return;
if (localTimer) {
delete[] localTimer;
localTimer = NULL;
}
const cTimers* timers;
#if defined (APIVERSNUM) && (APIVERSNUM >= 20301)
{
LOCK_TIMERS_READ;
timers = Timers;
}
#else
timers = &Timers;
#endif
int numTimers = Size();
if (numTimers > 0) {
localTimer = new bool[numTimers];
for (int i=0; i < numTimers; i++) {
if (!pRemoteTimers) {
localTimer[i] = true;
} else {
localTimer[i] = false;
for (const cTimer *Timer = timers->First(); Timer; Timer = timers->Next(Timer)) {
if (Timer == At(i)) {
localTimer[i] = true;
break;
}
}
}
}
}
}
void cGlobalTimers::SetLocalTimers(void) {
const cTimers* timers;
#if defined (APIVERSNUM) && (APIVERSNUM >= 20301)
{
LOCK_TIMERS_READ;
timers = Timers;
}
#else
timers = &Timers;
#endif
for (const cTimer *Timer = timers->First(); Timer; Timer = timers->Next(Timer)) {
if (Timer && Timer->HasFlags(tfActive))
Append(Timer);
}
}
void cGlobalTimers::SetRemoteTimers(bool initial) {
if (initial) {
cString errorMsg;
pRemoteTimers->Service("RemoteTimers::RefreshTimers-v1.0", &errorMsg);
}
#if defined (APIVERSNUM) && (APIVERSNUM >= 20301)
LOCK_SCHEDULES_READ;
const cSchedules* schedules = Schedules;
#else
cSchedulesLock schedulesLock;
const cSchedules* schedules = (cSchedules*)cSchedules::Schedules(schedulesLock);
#endif
cTimer* remoteTimer = NULL;
while (pRemoteTimers->Service("RemoteTimers::ForEach-v1.0", &remoteTimer) && remoteTimer != NULL) {
remoteTimer->SetEventFromSchedule(schedules); // make sure the event is current
if (remoteTimer->HasFlags(tfActive))
Append(remoteTimer);
}
}
bool cGlobalTimers::SetEpg2VdrTimers(void) {
bool ok = false;
cEpgTimer_Service_V1 data;
if (pEpg2Vdr->Service(EPG2VDR_TIMER_SERVICE, &data)) {
for (std::list<cEpgTimer_Interface_V1*>::iterator it = data.epgTimers.begin(); it != data.epgTimers.end(); ++it) {
ok = true;
isEpg2VdrTimers = true;
if ((*it)->HasFlags(tfActive)) {
Append(*it);
}
}
}
return ok;
}
int cGlobalTimers::NumTimerConfilicts(void) {
int numConflicts = 0;
if (pEpgSearch) {
Epgsearch_lastconflictinfo_v1_0 *serviceData = new Epgsearch_lastconflictinfo_v1_0;
if (serviceData) {
serviceData->nextConflict = 0;
serviceData->relevantConflicts = 0;
serviceData->totalConflicts = 0;
pEpgSearch->Service("Epgsearch-lastconflictinfo-v1.0", serviceData);
if (serviceData->relevantConflicts > 0) {
numConflicts = serviceData->relevantConflicts;
}
delete serviceData;
}
}
return numConflicts;
}
bool cGlobalTimers::IsRemoteTimer(int i) {
if (isEpg2VdrTimers) {
cEpgTimer_Interface_V1* epgTimer;
if (epgTimer = dynamic_cast<cEpgTimer_Interface_V1*>((cTimer*)At(i)))
return !epgTimer->isLocal();
else
return false;
}
if (!localTimer)
return true;
if (i >= Size())
return true;
return !(localTimer[i]);
}
const char* cGlobalTimers::RemoteHost(int i) {
if (isEpg2VdrTimers) {
cEpgTimer_Interface_V1* epgTimer;
if (epgTimer = dynamic_cast<cEpgTimer_Interface_V1*>((cTimer*)At(i)))
return epgTimer->VdrName();
}
return "";
}
bool cGlobalTimers::IsRecording(const cRecording *rec) {
if (!rec || !rec->Name())
return false;
std::string recName = rec->Name();
int size = Size();
for (int i=0; i<size; i++) {
const cTimer *t = At(i);
const char *timerFile = t->File();
if (!t->Matches() || !timerFile)
continue;
if (recName.find(timerFile) != std::string::npos)
return true;
}
return false;
}
void cGlobalTimers::ClearTimers(void) {
if (isEpg2VdrTimers) {
int size = Size();
for (int i=0; i<size; i++) {
delete At(i);
}
}
Clear();
}
void cGlobalTimers::StartRefreshThread(void) {
if (remoteTimerRefresh == NULL) {
remoteTimerRefresh = new cRemoteTimerRefresh();
}
}
void cGlobalTimers::StopRefreshThread(void) {
if (!remoteTimerRefresh)
return;
delete remoteTimerRefresh;
remoteTimerRefresh = NULL;
initial = true;
}
/*************************************************************************
* cRemoteTimerRefresh
*************************************************************************/
cRemoteTimerRefresh::cRemoteTimerRefresh(): cThread("skindesigner: RemoteTimers::RefreshTimers") {
pRemoteTimers = cPluginManager::GetPlugin("remotetimers");
if (pRemoteTimers)
Start();
}
cRemoteTimerRefresh::~cRemoteTimerRefresh(void) {
Cancel(-1);
while (Active())
cCondWait::SleepMs(10);
}
void cRemoteTimerRefresh::Action(void) {
#define REFESH_INTERVALL_MS 30000
int sleepSlice = 1000;
int slept = 0;
while (Running()) {
while (Running() && slept < REFESH_INTERVALL_MS) {
cCondWait::SleepMs(sleepSlice);
slept += sleepSlice;
}
slept = 0;
// make sure that no timer is currently being edited
if (!cOsd::IsOpen() && Running()) {
cString errorMsg;
pRemoteTimers->Service("RemoteTimers::RefreshTimers-v1.0", &errorMsg);
#if defined (APIVERSNUM) && (APIVERSNUM >= 20301)
LOCK_TIMERS_WRITE;
Timers->SetModified();
#else
Timers.SetModified();
#endif
}
}
}
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