def __init__(self, graph, sendToCollector):
self.graph = graph
self.sendToCollector = sendToCollector
self.music = MusicTime(period=.2, pollCurvecalc=False)
self.recentUpdateTimes = []
self.lastStatLog = 0
self._compileGraphCall = None
self.notes = {} # song: [notes]
self.graph.addHandler(self.compileGraph)
self.update()
self.codeWatcher = CodeWatcher(
onChange=lambda: self.graph.addHandler(self.compileGraph))
def __init__(self, graph):
wtree = gtk.Builder()
wtree.add_from_file(sibpath(__file__, "vidref.glade"))
mainwin = wtree.get_object("MainWindow")
mainwin.connect("destroy", gtk.main_quit)
wtree.connect_signals(self)
gtk.rc_parse("theme/marble-ice/gtk-2.0/gtkrc")
self.recordingTo = wtree.get_object('recordingTo')
self.musicScale = wtree.get_object("musicScale")
self.musicScale.connect("value-changed", self.onMusicScaleValue)
# tiny race here if onMusicScaleValue tries to use musicTime right away
self.musicTime = MusicTime(onChange=self.onMusicTimeChange, pollCurvecalc=False)
self.ignoreScaleChanges = False
# self.attachLog(wtree.get_object("lastLog")) # disabled due to crashing
# wtree.get_object("replayPanel").show() # demo only
rp = wtree.get_object("replayVbox")
self.replayViews = ReplayViews(rp)
mainwin.show_all()
vid3 = wtree.get_object("vid3")
if 0:
self.pipeline = Pipeline(
liveVideoXid=vid3.window.xid,
musicTime=self.musicTime,
recordingTo=self.recordingTo)
else:
self.pipeline = remotepivideo.Pipeline(
liveVideo=vid3,
musicTime=self.musicTime,
recordingTo=self.recordingTo,
graph=graph)
vid3.props.width_request = 360
vid3.props.height_request = 220
wtree.get_object("frame1").props.height_request = 220
self.pipeline.setInput('v4l') # auto seems to not search for dv
gobject.timeout_add(1000 // framerate, self.updateLoop)
class Gui(object):
def __init__(self, graph):
wtree = gtk.Builder()
wtree.add_from_file(sibpath(__file__, "vidref.glade"))
mainwin = wtree.get_object("MainWindow")
mainwin.connect("destroy", gtk.main_quit)
wtree.connect_signals(self)
gtk.rc_parse("theme/marble-ice/gtk-2.0/gtkrc")
self.recordingTo = wtree.get_object('recordingTo')
self.musicScale = wtree.get_object("musicScale")
self.musicScale.connect("value-changed", self.onMusicScaleValue)
# tiny race here if onMusicScaleValue tries to use musicTime right away
self.musicTime = MusicTime(onChange=self.onMusicTimeChange, pollCurvecalc=False)
self.ignoreScaleChanges = False
# self.attachLog(wtree.get_object("lastLog")) # disabled due to crashing
# wtree.get_object("replayPanel").show() # demo only
rp = wtree.get_object("replayVbox")
self.replayViews = ReplayViews(rp)
mainwin.show_all()
vid3 = wtree.get_object("vid3")
if 0:
self.pipeline = Pipeline(
liveVideoXid=vid3.window.xid,
musicTime=self.musicTime,
recordingTo=self.recordingTo)
else:
self.pipeline = remotepivideo.Pipeline(
liveVideo=vid3,
musicTime=self.musicTime,
recordingTo=self.recordingTo,
graph=graph)
vid3.props.width_request = 360
vid3.props.height_request = 220
wtree.get_object("frame1").props.height_request = 220
self.pipeline.setInput('v4l') # auto seems to not search for dv
gobject.timeout_add(1000 // framerate, self.updateLoop)
def snapshot(self):
return self.pipeline.snapshot()
def attachLog(self, textBuffer):
"""write log lines to this gtk buffer"""
class ToBuffer(logging.Handler):
def emit(self, record):
textBuffer.set_text(record.getMessage())
h = ToBuffer()
h.setLevel(logging.INFO)
log.addHandler(h)
def updateLoop(self):
position = self.musicTime.getLatest()
try:
with gtk.gdk.lock:
self.replayViews.update(position)
except:
traceback.print_exc()
return True
def getInputs(self):
return ['auto', 'dv', 'video0']
def on_liveVideoEnabled_toggled(self, widget):
self.pipeline.setLiveVideo(widget.get_active())
def on_liveFrameRate_value_changed(self, widget):
print widget.get_value()
def onMusicTimeChange(self, position):
self.ignoreScaleChanges = True
try:
self.musicScale.set_range(0, position['duration'])
self.musicScale.set_value(position['t'])
finally:
self.ignoreScaleChanges = False
def onMusicScaleValue(self, scaleRange):
"""the scale position has changed. if it was by the user, send
it back to music player"""
if not self.ignoreScaleChanges:
self.musicTime.sendTime(scaleRange.get_value())
def incomingTime(self, t, source):
self.musicTime.lastHoverTime = t
class Sequencer(object):
def __init__(self, graph, sendToCollector):
self.graph = graph
self.sendToCollector = sendToCollector
self.music = MusicTime(period=.2, pollCurvecalc=False)
self.recentUpdateTimes = []
self.lastStatLog = 0
self._compileGraphCall = None
self.notes = {} # song: [notes]
self.graph.addHandler(self.compileGraph)
self.update()
self.codeWatcher = CodeWatcher(
onChange=lambda: self.graph.addHandler(self.compileGraph))
def compileGraph(self):
log.info('compileGraph request')
self._compileGraphRun()
return
# may not help
if self._compileGraphCall:
self._compileGraphCall.cancel()
self._compileGraphCall = reactor.callLater(
.5,
self.graph.addHandler, self._compileGraphRun)
def _compileGraphRun(self):
"""rebuild our data from the graph"""
self._compileGraphCall = None
log.info('compileGraph start')
g = self.graph
sharedEffectOutputs = {}
for song in g.subjects(RDF.type, L9['Song']):
self.notes[song] = []
for note in g.objects(song, L9['note']):
self.notes[song].append(Note(g, note, effecteval, sharedEffectOutputs))
log.info('compileGraph done')
@stats.update.time()
def update(self):
now = time.time()
self.recentUpdateTimes = self.recentUpdateTimes[-20:] + [now]
stats.recentFps = len(self.recentUpdateTimes) / (self.recentUpdateTimes[-1] - self.recentUpdateTimes[0] + .0001)
if now > self.lastStatLog + 10:
log.info("%.2f fps", stats.recentFps)
self.lastStatLog = now
reactor.callLater(1/50, self.update)
musicState = self.music.getLatest()
song = URIRef(musicState['song']) if musicState.get('song') else None
if 't' not in musicState:
return
t = musicState['t']
settings = []
for note in self.notes.get(song, []):
outs = note.outputSettings(t)
#print 'out', outs
settings.extend(outs)
self.sendToCollector(settings)
class Sequencer(object):
def __init__(self, graph, sendToCollector, fps=40):
self.graph = graph
self.fps = fps
self.sendToCollector = sendToCollector
self.music = MusicTime(period=.2, pollCurvecalc=False)
self.recentUpdateTimes = []
self.lastStatLog = 0
self._compileGraphCall = None
self.notes = {} # song: [notes]
self.simpleOutputs = SimpleOutputs(self.graph)
self.graph.addHandler(self.compileGraph)
self.updateLoop()
self.codeWatcher = CodeWatcher(
onChange=lambda: self.graph.addHandler(self.compileGraph))
@stats.compileGraph.time()
def compileGraph(self):
"""rebuild our data from the graph"""
t1 = time.time()
g = self.graph
for song in g.subjects(RDF.type, L9['Song']):
self.graph.addHandler(lambda song=song: self.compileSong(song))
log.info('compileGraph took %.2f ms', 1000 * (time.time() - t1))
@stats.compileSong.time()
def compileSong(self, song):
t1 = time.time()
self.notes[song] = []
for note in self.graph.objects(song, L9['note']):
self.notes[song].append(Note(self.graph, note, effecteval,
self.simpleOutputs))
log.info(' compile %s took %.2f ms', song, 1000 * (time.time() - t1))
def updateLoop(self):
# print "updateLoop"
now = time.time()
self.recentUpdateTimes = self.recentUpdateTimes[-40:] + [now]
stats.recentFps = len(self.recentUpdateTimes) / (self.recentUpdateTimes[-1] - self.recentUpdateTimes[0] + .0001)
if now > self.lastStatLog + .2:
dispatcher.send('state', update={
'recentDeltas': sorted([round(t1 - t0, 4) for t0, t1 in
zip(self.recentUpdateTimes[:-1],
self.recentUpdateTimes[1:])]),
'recentFps': stats.recentFps})
self.lastStatLog = now
def done(sec):
# print "sec", sec
# delay = max(0, time.time() - (now + 1 / self.fps))
# print 'cl', delay
delay = 0.005
reactor.callLater(delay, self.updateLoop)
def err(e):
log.warn('updateLoop: %r', e)
reactor.callLater(2, self.updateLoop)
d = self.update()
d.addCallbacks(done, err)
@stats.update.time()
def update(self):
# print "update"
try:
musicState = self.music.getLatest()
song = URIRef(musicState['song']) if musicState.get('song') else None
if 't' not in musicState:
return defer.succeed(0)
t = musicState['t']
dispatcher.send('state', update={'song': str(song), 't': t})
settings = []
songNotes = sorted(self.notes.get(song, []), key=lambda n: n.uri)
noteReports = []
for note in songNotes:
s, report = note.outputSettings(t)
noteReports.append(report)
settings.append(s)
dispatcher.send('state', update={'songNotes': noteReports})
return self.sendToCollector(DeviceSettings.fromList(self.graph, settings))
except Exception:
traceback.print_exc()
raise
