SEEK_STATE_PAUSE = (1, 0, 0, "||")
SEEK_STATE_EOF = (1, 0, 0, "END")
- def __init__(self, actionmap = "InfobarSeekActions", useSeekBackHack=True):
+ def __init__(self, actionmap = "InfobarSeekActions"):
self.__event_tracker = ServiceEventTracker(screen=self, eventmap=
{
iPlayableService.evSeekableStatusChanged: self.__seekableStatusChanged,
self.__seekableStatusChanged()
def makeStateForward(self, n):
-# minspeed = config.seek.stepwise_minspeed.value
-# repeat = int(config.seek.stepwise_repeat.value)
-# if minspeed != "Never" and n >= int(minspeed) and repeat > 1:
-# return (0, n * repeat, repeat, ">> %dx" % n)
-# else:
- return (0, n, 0, ">> %dx" % n)
+ return (0, n, 0, ">> %dx" % n)
def makeStateBackward(self, n):
-# minspeed = config.seek.stepwise_minspeed.value
-# repeat = int(config.seek.stepwise_repeat.value)
-# if minspeed != "Never" and n >= int(minspeed) and repeat > 1:
-# return (0, -n * repeat, repeat, "<< %dx" % n)
-# else:
- return (0, -n, 0, "<< %dx" % n)
+ return (0, -n, 0, "<< %dx" % n)
def makeStateSlowMotion(self, n):
return (0, 0, n, "/%d" % n)
answer[1][1]()
from Tools.BoundFunction import boundFunction
+import inspect
# depends on InfoBarExtensions
return name
def getPluginList(self):
- list = [((boundFunction(self.getPluginName, p.name), boundFunction(self.runPlugin, p), lambda: True), None, p.name) for p in plugins.getPlugins(where = PluginDescriptor.WHERE_EXTENSIONSMENU)]
- list.sort(key = lambda e: e[2]) # sort by name
- return list
+ l = []
+ for p in plugins.getPlugins(where = PluginDescriptor.WHERE_EXTENSIONSMENU):
+ args = inspect.getargspec(p.__call__)[0]
+ if len(args) == 1 or len(args) == 2 and isinstance(self, InfoBarChannelSelection):
+ l.append(((boundFunction(self.getPluginName, p.name), boundFunction(self.runPlugin, p), lambda: True), None, p.name))
+ l.sort(key = lambda e: e[2]) # sort by name
+ return l
def runPlugin(self, plugin):
if isinstance(self, InfoBarChannelSelection):
recording = RecordTimerEntry(serviceref, begin, end, name, description, eventid, dirname = preferredInstantRecordPath())
recording.dontSave = True
-
+
if event is None or limitEvent == False:
recording.autoincrease = True
- if recording.setAutoincreaseEnd():
- self.session.nav.RecordTimer.record(recording)
- self.recording.append(recording)
+ recording.setAutoincreaseEnd()
+
+ simulTimerList = self.session.nav.RecordTimer.record(recording)
+
+ if simulTimerList is None: # no conflict
+ self.recording.append(recording)
else:
- simulTimerList = self.session.nav.RecordTimer.record(recording)
- if simulTimerList is not None: # conflict with other recording
- name = simulTimerList[1].name
- name_date = ' '.join((name, strftime('%c', localtime(simulTimerList[1].begin))))
- print "[TIMER] conflicts with", name_date
- recording.autoincrease = True # start with max available length, then increment
- if recording.setAutoincreaseEnd():
- self.session.nav.RecordTimer.record(recording)
- self.recording.append(recording)
- self.session.open(MessageBox, _("Record time limited due to conflicting timer %s") % name_date, MessageBox.TYPE_INFO)
- else:
- self.session.open(MessageBox, _("Couldn't record due to conflicting timer %s") % name, MessageBox.TYPE_INFO)
- recording.autoincrease = False
- else:
+ if len(simulTimerList) > 1: # with other recording
+ name = simulTimerList[1].name
+ name_date = ' '.join((name, strftime('%c', localtime(simulTimerList[1].begin))))
+ print "[TIMER] conflicts with", name_date
+ recording.autoincrease = True # start with max available length, then increment
+ if recording.setAutoincreaseEnd():
+ self.session.nav.RecordTimer.record(recording)
self.recording.append(recording)
+ self.session.open(MessageBox, _("Record time limited due to conflicting timer %s") % name_date, MessageBox.TYPE_INFO)
+ else:
+ self.session.open(MessageBox, _("Couldn't record due to conflicting timer %s") % name, MessageBox.TYPE_INFO)
+ else:
+ self.session.open(MessageBox, _("Couldn't record due to invalid service %s") % serviceref, MessageBox.TYPE_INFO)
+ recording.autoincrease = False
def isInstantRecordRunning(self):
print "self.recording:", self.recording
return True
def jumpPreviousMark(self):
- # we add 2 seconds, so if the play position is <2s after
+ # we add 5 seconds, so if the play position is <5s after
# the mark, the mark before will be used
self.jumpPreviousNextMark(lambda x: -x-5*90000, start=True)
def jumpNextMark(self):
- if not self.jumpPreviousNextMark(lambda x: x):
+ if not self.jumpPreviousNextMark(lambda x: x-90000):
self.doSeek(-1)
def getNearestCutPoint(self, pts, cmp=abs, start=False):
# can be optimized
- beforecut = False
+ beforecut = True
nearest = None
+ bestdiff = -1
+ instate = True
if start:
- beforecut = True
bestdiff = cmp(0 - pts)
if bestdiff >= 0:
nearest = [0, False]
beforecut = False
if cp[1] == self.CUT_TYPE_IN: # Start is here, disregard previous marks
diff = cmp(cp[0] - pts)
- if diff >= 0:
+ if start and diff >= 0:
nearest = cp
bestdiff = diff
else:
nearest = None
- if cp[1] in (self.CUT_TYPE_MARK, self.CUT_TYPE_LAST):
+ bestdiff = -1
+ if cp[1] == self.CUT_TYPE_IN:
+ instate = True
+ elif cp[1] == self.CUT_TYPE_OUT:
+ instate = False
+ elif cp[1] in (self.CUT_TYPE_MARK, self.CUT_TYPE_LAST):
diff = cmp(cp[0] - pts)
- if diff >= 0 and (nearest is None or bestdiff > diff):
+ if instate and diff >= 0 and (nearest is None or bestdiff > diff):
nearest = cp
bestdiff = diff
return nearest
git.cweiske.de / enigma2.git / blobdiff