from Screens.TimerEntry import TimerEntry
from Screens.EpgSelection import EPGSelection
from Screens.TimerEdit import TimerSanityConflict
-from Tools.Directories import resolveFilename, SCOPE_SKIN_IMAGE
-from RecordTimer import RecordTimerEntry, parseEvent
+from Screens.MessageBox import MessageBox
+from Tools.Directories import resolveFilename, SCOPE_CURRENT_SKIN
+from RecordTimer import RecordTimerEntry, parseEvent, AFTEREVENT
from ServiceReference import ServiceReference
from Tools.LoadPixmap import LoadPixmap
from enigma import eEPGCache, eListbox, gFont, eListboxPythonMultiContent, \
if overjump_empty:
self.l.setSelectableFunc(self.isSelectable)
self.epgcache = eEPGCache.getInstance()
- self.clock_pixmap = LoadPixmap(resolveFilename(SCOPE_SKIN_IMAGE, 'skin_default/icons/epgclock.png'))
+ self.clock_pixmap = LoadPixmap(cached=True, path=resolveFilename(SCOPE_CURRENT_SKIN, 'skin_default/icons/epgclock.png'))
+ self.clock_add_pixmap = LoadPixmap(cached=True, path=resolveFilename(SCOPE_CURRENT_SKIN, 'skin_default/icons/epgclock_add.png'))
+ self.clock_pre_pixmap = LoadPixmap(cached=True, path=resolveFilename(SCOPE_CURRENT_SKIN, 'skin_default/icons/epgclock_pre.png'))
+ self.clock_post_pixmap = LoadPixmap(cached=True, path=resolveFilename(SCOPE_CURRENT_SKIN, 'skin_default/icons/epgclock_post.png'))
+ self.clock_prepost_pixmap = LoadPixmap(cached=True, path=resolveFilename(SCOPE_CURRENT_SKIN, 'skin_default/icons/epgclock_prepost.png'))
self.time_base = None
self.time_epoch = time_epoch
self.list = None
return (event_list and len(event_list) and True) or False
def setEpoch(self, epoch):
- if self.cur_event is not None and self.cur_service is not None:
- self.offs = 0
- self.time_epoch = epoch
- self.fillMultiEPG(None) # refill
+# if self.cur_event is not None and self.cur_service is not None:
+ self.offs = 0
+ self.time_epoch = epoch
+ self.fillMultiEPG(None) # refill
def getEventFromId(self, service, eventid):
event = None
event = self.epgcache.lookupEventId(service.ref, eventid)
return event
+ def moveToService(self,serviceref):
+ if serviceref is not None:
+ for x in range(len(self.list)):
+ if self.list[x][0] == serviceref.toString():
+ self.instance.moveSelectionTo(x)
+ break
+
+ def getIndexFromService(self, serviceref):
+ if serviceref is not None:
+ for x in range(len(self.list)):
+ if self.list[x][0] == serviceref.toString():
+ return x
+
+ def setCurrentIndex(self, index):
+ if self.instance is not None:
+ self.instance.moveSelectionTo(index)
+
def getCurrent(self):
if self.cur_service is None:
return ( None, None )
def selectionChanged(self):
for x in self.onSelChanged:
if x is not None:
- try:
- x()
- except: # FIXME!!!
- print "FIXME in EPGList.selectionChanged"
- pass
+ x()
+# try:
+# x()
+# except: # FIXME!!!
+# print "FIXME in EPGList.selectionChanged"
+# pass
GUI_WIDGET = eListbox
borderColor = self.borderColor
for ev in events: #(event_id, event_title, begin_time, duration)
- rec=ev[2] and self.timer.isInTimer(ev[0], ev[2], ev[3], service) > ((ev[3]/10)*8)
+ rec=ev[2] and self.timer.isInTimer(ev[0], ev[2], ev[3], service)
xpos, ewidth = self.calcEntryPosAndWidthHelper(ev[2], ev[3], start, end, width)
res.append(MultiContentEntryText(
pos = (left+xpos, top), size = (ewidth, height),
if rec and ewidth > 23:
res.append(MultiContentEntryPixmapAlphaTest(
pos = (left+xpos+ewidth-22, top+height-22), size = (21, 21),
- png = self.clock_pixmap, backcolor = backColor,
+ png = self.getClockPixmap(service, ev[2], ev[3], ev[0]),
+ backcolor = backColor,
backcolor_sel = backColorSelected))
return res
self.time_base = int(stime)
test = [ (service.ref.toString(), 0, self.time_base, self.time_epoch) for service in services ]
test.insert(0, 'XRnITBD')
- print "BEFORE:"
- for x in test:
- print x
+# print "BEFORE:"
+# for x in test:
+# print x
epg_data = self.queryEPG(test)
- print "EPG:"
- for x in epg_data:
- print x
+# print "EPG:"
+# for x in epg_data:
+# print x
self.list = [ ]
tmp_list = None
service = ""
def resetOffset(self):
self.offs = 0
+
+ def getClockPixmap(self, refstr, beginTime, duration, eventId):
+ pre_clock = 1
+ post_clock = 2
+ clock_type = 0
+ endTime = beginTime + duration
+ for x in self.timer.timer_list:
+ if x.service_ref.ref.toString() == refstr:
+ if x.eit == eventId:
+ return self.clock_pixmap
+ beg = x.begin
+ end = x.end
+ if beginTime > beg and beginTime < end and endTime > end:
+ clock_type |= pre_clock
+ elif beginTime < beg and endTime > beg and endTime < end:
+ clock_type |= post_clock
+ if clock_type == 0:
+ return self.clock_add_pixmap
+ elif clock_type == pre_clock:
+ return self.clock_pre_pixmap
+ elif clock_type == post_clock:
+ return self.clock_post_pixmap
+ else:
+ return self.clock_prepost_pixmap
class TimelineText(HTMLComponent, GUIComponent):
def __init__(self):
config.misc.graph_mepg_prev_time_period=ConfigInteger(default=120, limits=(60,300))
class GraphMultiEPG(Screen):
+ EMPTY = 0
+ ADD_TIMER = 1
+ REMOVE_TIMER = 2
+
+ ZAP = 1
+
def __init__(self, session, services, zapFunc=None, bouquetChangeCB=None):
Screen.__init__(self, session)
self.bouquetChangeCB = bouquetChangeCB
self.ask_time = now - tmp
self.closeRecursive = False
self["key_red"] = Button("")
- self["key_green"] = Button(_("Add timer"))
+ self["key_green"] = Button("")
+ self.key_green_choice = self.EMPTY
+ self.key_red_choice = self.EMPTY
self["timeline_text"] = TimelineText()
self["Event"] = Event()
self.time_lines = [ ]
#just used in multipeg
def onCreate(self):
self["list"].fillMultiEPG(self.services, self.ask_time)
+ self["list"].moveToService(self.session.nav.getCurrentlyPlayingServiceReference())
self.moveTimeLines()
def eventViewCallback(self, setEvent, setService, val):
setEvent(cur[0])
def zapTo(self):
- if self.zapFunc and self["key_red"].getText() == "Zap":
+ if self.zapFunc and self.key_red_choice == self.ZAP:
self.closeRecursive = True
ref = self["list"].getCurrent()[1]
if ref:
def eventSelected(self):
self.infoKeyPressed()
+ def removeTimer(self, timer):
+ timer.afterEvent = AFTEREVENT.NONE
+ self.session.nav.RecordTimer.removeEntry(timer)
+ self["key_green"].setText(_("Add timer"))
+ self.key_green_choice = self.ADD_TIMER
+
def timerAdd(self):
cur = self["list"].getCurrent()
event = cur[0]
serviceref = cur[1]
if event is None:
return
- newEntry = RecordTimerEntry(serviceref, checkOldTimers = True, *parseEvent(event))
- self.session.openWithCallback(self.finishedAdd, TimerEntry, newEntry)
+ eventid = event.getEventId()
+ refstr = serviceref.ref.toString()
+ for timer in self.session.nav.RecordTimer.timer_list:
+ if timer.eit == eventid and timer.service_ref.ref.toString() == refstr:
+ cb_func = lambda ret : not ret or self.removeTimer(timer)
+ self.session.openWithCallback(cb_func, MessageBox, _("Do you really want to delete %s?") % event.getEventName())
+ break
+ else:
+ newEntry = RecordTimerEntry(serviceref, checkOldTimers = True, *parseEvent(event))
+ self.session.openWithCallback(self.finishedAdd, TimerEntry, newEntry)
def finishedAdd(self, answer):
print "finished add"
entry = answer[1]
simulTimerList = self.session.nav.RecordTimer.record(entry)
if simulTimerList is not None:
- if (len(simulTimerList) == 2) and (simulTimerList[1].dontSave) and (simulTimerList[1].autoincrease):
- simulTimerList[1].end = entry.begin - 30
- self.session.nav.RecordTimer.timeChanged(simulTimerList[1])
- self.session.nav.RecordTimer.record(entry)
- else:
+ for x in simulTimerList:
+ if x.setAutoincreaseEnd(entry):
+ self.session.nav.RecordTimer.timeChanged(x)
+ simulTimerList = self.session.nav.RecordTimer.record(entry)
+ if simulTimerList is not None:
self.session.openWithCallback(self.finishSanityCorrection, TimerSanityConflict, simulTimerList)
+ self["key_green"].setText(_("Remove timer"))
+ self.key_green_choice = self.REMOVE_TIMER
else:
- print "Timeredit aborted"
+ self["key_green"].setText(_("Add timer"))
+ self.key_green_choice = self.ADD_TIMER
+ print "Timeredit aborted"
def finishSanityCorrection(self, answer):
self.finishedAdd(answer)
def onSelectionChanged(self):
- evt = self["list"].getCurrent()
- self["Event"].newEvent(evt and evt[0])
- if evt and evt[0]:
- evt = evt[0]
- now = time()
- start = evt.getBeginTime()
- end = start + evt.getDuration()
- if now >= start and now <= end:
- self["key_red"].setText("Zap")
- else:
+ cur = self["list"].getCurrent()
+ if cur is None:
+ if self.key_green_choice != self.EMPTY:
+ self["key_green"].setText("")
+ self.key_green_choice = self.EMPTY
+ if self.key_red_choice != self.EMPTY:
self["key_red"].setText("")
-
+ self.key_red_choice = self.EMPTY
+ return
+
+ event = cur[0]
+ self["Event"].newEvent(event)
+
+ if cur[1] is None or cur[1].getServiceName() == "":
+ if self.key_green_choice != self.EMPTY:
+ self["key_green"].setText("")
+ self.key_green_choice = self.EMPTY
+ if self.key_red_choice != self.EMPTY:
+ self["key_red"].setText("")
+ self.key_red_choice = self.EMPTY
+ return
+ elif self.key_red_choice != self.ZAP:
+ self["key_red"].setText("Zap")
+ self.key_red_choice = self.ZAP
+
+ if not event:
+ if self.key_green_choice != self.EMPTY:
+ self["key_green"].setText("")
+ self.key_green_choice = self.EMPTY
+ return
+
+ serviceref = cur[1]
+ eventid = event.getEventId()
+ refstr = serviceref.ref.toString()
+ isRecordEvent = False
+ for timer in self.session.nav.RecordTimer.timer_list:
+ if timer.eit == eventid and timer.service_ref.ref.toString() == refstr:
+ isRecordEvent = True
+ break
+ if isRecordEvent and self.key_green_choice != self.REMOVE_TIMER:
+ self["key_green"].setText(_("Remove timer"))
+ self.key_green_choice = self.REMOVE_TIMER
+ elif not isRecordEvent and self.key_green_choice != self.ADD_TIMER:
+ self["key_green"].setText(_("Add timer"))
+ self.key_green_choice = self.ADD_TIMER
+
def moveTimeLines(self, force=False):
+ self.updateTimelineTimer.start((60-(int(time())%60))*1000) #keep syncronised
l = self["list"]
event_rect = l.getEventRect()
time_epoch = l.getTimeEpoch()
if event_rect is None or time_epoch is None or time_base is None:
return
time_steps = time_epoch > 180 and 60 or 30
+
num_lines = time_epoch/time_steps
incWidth=event_rect.width()/num_lines
pos=event_rect.left()
now=time()
timeline_now = self["timeline_now"]
if now >= time_base and now < (time_base + time_epoch * 60):
- bla = (event_rect.width() * 1000) / time_epoch
- xpos = ((now/60) - (time_base/60)) * bla / 1000
+ xpos = int((((now - time_base) * event_rect.width()) / (time_epoch * 60))-(timeline_now.instance.size().width()/2))
old_pos = timeline_now.position
new_pos = (xpos+event_rect.left(), old_pos[1])
if old_pos != new_pos:
timeline_now.visible = True
else:
timeline_now.visible = False
+ # here no l.l.invalidate() is needed when the zPosition in the skin is correct!
+
+