timersanitycheck = TimerSanityCheck(NavigationInstance.instance.RecordTimer.timer_list, dummyentry)
if not timersanitycheck.check():
simulTimerList = timersanitycheck.getSimulTimerList()
- new_end = simulTimerList[1].begin
- del simulTimerList
- new_end -= 30 # 30 Sekunden Prepare-Zeit lassen
- del dummyentry
+ if simulTimerList is not None and len(simulTimerList) > 1:
+ new_end = simulTimerList[1].begin
+ new_end -= 30 # 30 Sekunden Prepare-Zeit lassen
if new_end <= time():
return False
self.end = new_end
return True
-
-
+
def sendStandbyNotification(self, answer):
if answer:
Notifications.AddNotification(Screens.Standby.Standby)
col);
return 0;
#endif
-#if 0 // def BCM_ACCEL
- bcm_accel_fill(
- dst->data_phys, dst->x, dst->y, dst->stride,
- area.left(), area.top(), area.width(), area.height(),
- col);
- return 0;
+#ifdef BCM_ACCEL
+ if (!m_bcm_accel_state) {
+ bcm_accel_fill(
+ dst->data_phys, dst->x, dst->y, dst->stride,
+ area.left(), area.top(), area.width(), area.height(),
+ col);
+ return 0;
+ }
#endif
return -1;
}
int x, int y, int width, int height,
unsigned long color)
{
-// printf("unimplemented bcm_accel_fill\n");
+ C(0x43); // reset source
+ C(0x53); // reset dest
+ C(0x5b); // reset pattern
+ C(0x67); // reset blend
+ C(0x75); // reset output
+
+ // clear dest surface
+ P(0x0, 0);
+ P(0x1, 0);
+ P(0x2, 0);
+ P(0x3, 0);
+ P(0x4, 0);
+ C(0x45);
+
+ // clear src surface
+ P(0x0, 0);
+ P(0x1, 0);
+ P(0x2, 0);
+ P(0x3, 0);
+ P(0x4, 0);
+ C(0x5);
+
+ P(0x2d, color);
+
+ P(0x2e, x); // prepare output rect
+ P(0x2f, y);
+ P(0x30, width);
+ P(0x31, height);
+ C(0x6e); // set this rect as output rect
+
+ P(0x0, dst_addr); // prepare output surface
+ P(0x1, dst_stride);
+ P(0x2, dst_width);
+ P(0x3, dst_height);
+ P(0x4, 0x7e48888);
+ C(0x69); // set output surface
+
+ P(0x6f, 0);
+ P(0x70, 0);
+ P(0x71, 2);
+ P(0x72, 2);
+ C(0x73); // select color keying
+
+ C(0x77); // do it
+
+ exec_list();
}
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
if not timersanitycheck.check():
t.disable()
print "Sanity check failed"
- self.session.openWithCallback(self.finishedEdit, TimerSanityConflict, timersanitycheck.getSimulTimerList())
+ simulTimerList = timersanitycheck.getSimulTimerList()
+ if simulTimerList is not None:
+ self.session.openWithCallback(self.finishedEdit, TimerSanityConflict, simulTimerList)
else:
print "Sanity check passed"
if timersanitycheck.doubleCheck():