def test_unreferenced_cleanup(self):
"""Test that the player gets cleaned up if there are no references left to it
and playback of contained sources has finished."""
silence = Silence(.1)
player = Player()
player_id = id(player)
@player.event
def on_player_eos():
on_player_eos.called = True
on_player_eos.called = False
player.queue(silence)
player.play()
player = None
while not on_player_eos.called:
time.sleep(.1)
gc.collect()
for obj in gc.get_objects():
if isinstance(obj, Player) and id(obj) == player_id:
self.fail('Player should be cleaned up')
self.assertListEqual([], gc.garbage, msg='Should not find garbage')
def real_playsound():
sound = pyglet.media.load('mt.wav')
player = Player()
player.queue(sound)
player.eos_action = player.EOS_LOOP
player.play()
pyglet.app.run()
def play_sound_effect(name: str, volume: float = 1.0):
"""Play a sound effect."""
player = Player()
player.queue(load(f'{ASSETS}audio/{name}.wav'))
player.volume = volume * settings.get_sfx_volume()
player.play()
sfxs.append(player)
def playEffect(self, soundName):
if not self.enabled:
return
soundName = soundName.lower()
snd = self.getSound(soundName)
assert snd
p = Player()
p.volume = self.soundEffectVolume
p.queue(snd)
p.play()
def playEffect(self, soundName):
if not self.enabled:
return
soundName = soundName.lower()
snd = self.getSound(soundName)
assert snd
p = Player()
p.volume = self.soundEffectVolume
p.queue(snd)
p.play()
def on_key_press(symbol, modifiers): p = Player() p.queue(drums[symbol]) in_q.put(None) v = out_q.get(block=True)[1] print v p.volume = v print p.volume p.play()
def main():
director.init(**window)
main_scene = Scene(StartLayer())
player = Player()
player.queue(load("resources/audios/cave.wav"))
player.eos_action = player.EOS_LOOP
player.play()
director.run(main_scene)
def play_sound_once(self,soundfile,volume):
if self.config.sound_switch>0:
play_sound = Player()
play_sound_source = load(soundfile)
play_sound_group = SourceGroup(play_sound_source.audio_format, None)
play_sound_group.loop = False
play_sound_group.queue(play_sound_source)
play_sound.queue(play_sound_group)
play_sound.volume=float(volume) * self.config.sound_switch
play_sound.play()
def main():
director.init(**window)
main_scene = Scene(StartLayer())
player = Player()
player.queue(load("resources/audios/cave.wav"))
player.eos_action = player.EOS_LOOP
player.play()
director.run(main_scene)
class DisplayTitle(Layer):
display_pos_size = {"display_title": {"X": 0, "Y": 0, "W": 1, "H": 1}}
def __init__(self):
Layer.__init__(self)
self.config = Config()
self.gallery = Gallery()
self.wind = Player()
source = load("music/sound_start.wav")
self.wind.queue(source)
self.wind.volume = 0.3
self.wind.play()
self.background = Sprite(self.gallery.content["display"]["title"])
self.optimal_scale = (self.config.window_width *
self.display_pos_size["display_title"]["W"]
) / self.background.width
self.background.image_anchor = 0, 0
self.background.scale = self.optimal_scale
self.background.x = self.config.window_width * self.display_pos_size[
"display_title"]["X"]
self.background.y = self.config.window_height * self.display_pos_size[
"display_title"]["Y"]
self.left_margin = self.background.x
self.bottom_margin = self.background.y
self.optimal_width = self.background.width
self.optimal_height = self.background.height
place_holder_image = Sprite(self.gallery.content["screen"]["title"])
place_holder_image.position = director.window.width / 2, director.window.height / 2
#place_holder_image.scale=self.optimal_scale/30
#place_holder_image.do(ScaleBy(45, duration=35))
place_holder_image.scale = self.optimal_scale
self.add(place_holder_image)
self.background2 = self.background
self.add(self.background)
self.add(self.background2)
self.schedule_interval(self.intro_train_start, interval=5)
self.schedule_interval(self.intro_music_start, interval=4)
self.is_event_handler = True
def on_mouse_press(self, x, y, buttons, modifiers):
self.wind.pause()
self.unschedule(self.intro_music_start)
self.unschedule(self.intro_train_start)
events.emit_show_mainmenu()
def intro_music_start(self, event):
director.core.switch_intro_music(True)
self.unschedule(self.intro_music_start)
def intro_train_start(self, event):
self.background.do(FadeOut(duration=20))
self.unschedule(self.intro_train_start)
def playFile(sound, reps=1):
import pyglet
from pyglet.media import Player
player = Player()
song = pyglet.media.load(sound, streaming=False)
for i in range(reps):
player.queue(song)
player.play()
def callback(dt):
pyglet.app.exit()
pyglet.clock.schedule_once(callback, song.duration * reps)
pyglet.app.run()
class AudioEngine:
"""A high level audio engine for easily playing SFX and Music."""
def __init__(self, channels=5):
self.sfx_players = deque([Player() for _ in range(channels)],
maxlen=channels)
self.music_player = Player()
def set_volume(self, percentage):
"""Set the audio volume, as a percentage of 1 to 100.
:param percentage: int: The volume, as a percentage.
"""
volume = max(min(1, percentage / 100), 0)
for player in self.sfx_players:
player.volume = volume
self.music_player.volume = volume
def play(self, source, position=(0, 0, 0)):
"""Play a sound effect on the next available channel
:param source: A pyglet audio Source
:param position: Optional spacial position for the sound.
"""
player = self.sfx_players[0]
player.position = position
player.queue(source=source)
if not player.playing:
player.play()
else:
player.next_source()
self.sfx_players.rotate()
def play_music(self, source):
"""Play a music track, or switch to a new one.
:param source: A pyglet audio Source
"""
self.music_player.queue(source=source)
if not self.music_player.playing:
self.music_player.play()
else:
self.music_player.next_source()
def play(audio):
if audio != "silent":
player1 = Player()
player1.queue(load(join(DATA, "chronotank.ogg")))
player1.queue(load(join(DATA, "imagine_a_world.ogg")))
player1.play()
player2 = Player()
player2.eos_action = Player.EOS_LOOP
player2.queue(load(join(DATA, "stupidsongimadenofarting.ogg")))
player2.play()
class Task(ColorLayer, pyglet.event.EventDispatcher):
d = Dispatcher()
states = ["INIT", "CALIBRATE", "IGNORE_INPUT", "TASK", "DONE"]
STATE_INIT = 0
STATE_CALIBRATE = 1
STATE_IGNORE_INPUT = 2
STATE_TASK = 3
STATE_DONE = 4
BG_TILE_SIZE = (1024,128)
FG_TILE_SIZE = (1024,128)
is_event_handler = True
def __init__(self, client=None):
self.screen = director.get_window_size()
super(Task, self).__init__(0, 0, 0, 255, 1024, int(768*1.1))
self.client = client
self.state = self.STATE_INIT
self.mole_images = [resource.image('mole_1.png'),
resource.image('mole_laugh1.png'),
resource.image('mole_laugh2.png'),
resource.image('mole_laugh3.png'),
resource.image('mole_thump1.png'),
resource.image('mole_thump2.png'),
resource.image('mole_thump3.png'),
resource.image('mole_thump4.png')]
self.music = Player()
self.music.queue(pyglet.resource.media('whack.mp3'))
self.music.eos_action = 'loop'
self.cm = CollisionManagerBruteForce()
self.moles = []
for i in range(0,3):
mole = Mole(self.mole_images, (112 + (i * 310)), (127-80))
self.moles.append(mole)
self.add(mole, 55)
self.cm.add(mole)
for i in range(3,6):
mole = Mole(self.mole_images, (112 + ((i-3) * 310)), (383-80))
self.moles.append(mole)
self.add(mole, 35)
self.cm.add(mole)
for i in range(6,9):
mole = Mole(self.mole_images, (112 + ((i-6) * 310)), (639-80))
self.moles.append(mole)
self.add(mole, 15)
self.cm.add(mole)
self.text_batch = BatchNode()
self.add(self.text_batch, z=100)
self.score = 0
scorey = int((768 + int(768*1.1))/2)
self.score_num = text.Label("%06d" % self.score, font_name="Score Board", font_size=48, x=512, y=scorey, color=(255, 255, 255, 255),
anchor_x='center', anchor_y='center', batch=self.text_batch.batch)
self.fix = Label('G', font_name='Cut Outs for 3D FX', font_size=48,
position=(0,0), color=(255, 0, 0, 192), anchor_x='center', anchor_y='center')
self.fix.visible = False
self.add(self.fix, z=100000)
self.add(Sprite(resource.image('bg_dirt128.png'), anchor=(0,0), position=(0,0)))
self.add(Sprite(resource.image('bg_dirt128.png'), anchor=(0,0), position=(0,128)))
self.add(Sprite(resource.image('bg_dirt128.png'), anchor=(0,0), position=(0,256)))
self.add(Sprite(resource.image('bg_dirt128.png'), anchor=(0,0), position=(0,384)))
self.add(Sprite(resource.image('bg_dirt128.png'), anchor=(0,0), position=(0,512)))
self.add(Sprite(resource.image('bg_dirt128.png'), anchor=(0,0), position=(0,640)))
self.add(Sprite(resource.image('grass_lower128.png'), anchor=(0,0), position=(0,0)), z=60)
self.add(Sprite(resource.image('grass_upper128.png'), anchor=(0,0), position=(0,128)), z=50)
self.add(Sprite(resource.image('grass_lower128.png'), anchor=(0,0), position=(0,256)), z=40)
self.add(Sprite(resource.image('grass_upper128.png'), anchor=(0,0), position=(0,384)), z=30)
self.add(Sprite(resource.image('grass_lower128.png'), anchor=(0,0), position=(0,512)), z=20)
self.add(Sprite(resource.image('grass_upper128.png'), anchor=(0,0), position=(0,640)), z=10)
def set_score(self):
self.score_num.begin_update()
self.score_num.text = "%06d" % self.score
self.score_num.end_update()
def visit(self):
super(Task, self).visit()
if director.settings["overlay"]:
for mole in self.moles:
if mole.opacity > -1:
if mole.state == 1:
color = (.3,0.0,0.0,.7)
else:
color = (.3,0.2,0.5,.7)
p = Polygon([(mole.center[0]-mole.rx, mole.center[1]-mole.ry),
(mole.center[0]+mole.rx, mole.center[1]-mole.ry),
(mole.center[0]+mole.rx, mole.center[1]+mole.ry),
(mole.center[0]-mole.rx, mole.center[1]+mole.ry)],
color=color)
p.render()
def mole_up(self):
moles = [mole for mole in self.moles if not mole.active]
if moles:
random.choice(moles).up()
def animate(self, dt):
self.mole_up()
if random.randint(0, 3) == 0:
self.mole_up()
def game_over(self):
self.state = self.STATE_GAME_OVER
def clear(self):
self.music.pause()
self.music.seek(0)
for mole in self.moles:
mole.active = False
mole.state = 0
mole.position = mole.position_in
pyglet.clock.unschedule(self.animate)
if self.client:
self.client.removeDispatcher(self.d)
self.client.stopDataStreaming()
self.client.stopFixationProcessing()
def reset(self):
self.clear()
if self.client:
self.client.addDispatcher(self.d)
#self.client.setDataFormat('%TS %ET %SX %SY %DX %DY %EX %EY %EZ')
#self.client.startDataStreaming()
self.client.startFixationProcessing()
self.state = self.STATE_TASK
self.score = 0
pyglet.clock.schedule_interval(self.animate, .5)
self.music.play()
def on_enter(self):
if isinstance(director.scene, TransitionScene): return
super(Task, self).on_enter()
if director.settings['eyetracker']:
self.state = self.STATE_CALIBRATE
self.dispatch_event("start_calibration", self.calibration_ok, self.calibration_bad)
else:
self.reset()
def calibration_ok(self):
self.dispatch_event("stop_calibration")
self.reset()
def calibration_bad(self):
self.dispatch_event("stop_calibration")
director.scene.dispatch_event("show_intro_scene")
def on_exit(self):
if isinstance(director.scene, TransitionScene): return
super(Task, self).on_exit()
self.clear()
@d.listen('ET_FIX')
def iViewXEvent(self, inResponse):
if inResponse[0] == 'l':
x = int(float(inResponse[2]))
y = int(float(inResponse[3]))
if director.settings["overlay"]:
self.fix.position = (x, y)
self.fix.visible = True
self.handle_mouse_press(x, y)
@d.listen('ET_EFX')
def iViewXEvent(self, inResponse):
if inResponse[0] == 'l':
if director.settings["overlay"]:
self.fix.visible = False
@d.listen('ET_SPL')
def iViewXEvent(self, inResponse):
pass
def handle_mouse_press(self, x, y):
for obj in self.cm.objs_touching_point(x, y):
if obj.active:
if obj.state == 0:
obj.state = 1
obj.thump()
self.score += 10
elif obj.state == 2:
self.score -= 10
self.set_score()
def on_mouse_press(self, x, y, buttons, modifiers):
posx, posy = director.get_virtual_coordinates(x, y)
self.handle_mouse_press(posx, posy)
def on_mouse_motion(self, x, y, dx, dy):
pass
def on_key_press(self, symbol, modifiers):
if self.state < self.STATE_IGNORE_INPUT: return
if symbol == key.W and (modifiers & key.MOD_ACCEL):
director.scene.dispatch_event("show_intro_scene")
True
if self.state == self.STATE_TASK:
pass
elif self.state == self.STATE_DONE:
pass
class Gui(object):
def __init__(self, manager, win, debug=False):
self.manager = manager
self.debug = debug
#self.lab=Label(win, text="Serial port:")
#self.lab.place(x=30, y=20)
#self.txtfld=Entry(win, text="Serial port")
#self.txtfld.place(x=300, y=20)
#self.btn_cnct=Button(win, text="Connect printer", command=self.connect)
#self.btn_cnct.place(x=30, y=50)
#self.btn_init=Button(win, text="Initialize", command=self.initialize, state=DISABLED)
#self.btn_init.place(x=30, y=90)
#self.tidal_vol=("300","400","500","750","900","1000")
#self.lab_tv=Label(win, text='Tidal volume:')
#self.lab_tv.place(x=30, y=180)
#self.tv=Combobox(win, values=self.tidal_vol)
#self.tv.place(x=240, y=180)
#self.resp_rate=("12","16","20","32")
#self.lab_rr=Label(win, text='Respiratory rate:')
#self.lab_rr.place(x=30, y=210)
#self.rr=Combobox(win, values=self.resp_rate)
#self.rr.place(x=240, y=210)
#self.insp_exp=("1:2")
#self.lab_ie=Label(win, text='Inspiratory/expiratory:')
#self.lab_ie.place(x=30, y=240)
#self.ie=Combobox(win, values=self.insp_exp)
#self.ie.place(x=240, y=240)
#self.btn_run=Button(win, text="Run Ventilation", command=self.start_run,state=DISABLED)
#self.btn_run.place(x=30, y=310)
#self.btn_stop=Button(win, text="Stop",command=self.stop,state=DISABLED)
#self.btn_stop.place(x=180, y=310)
self.readings = []
self.state = None
self.reading_pressure = Label(win,
text="Latest pressure (cmH2O)",
font=("Helvetica", 18))
self.reading_pressure.place(x=30, y=20)
self.reading_ppeak = Label(win,
text="Latest PPeak (cmH2O)",
font=("Helvetica", 18))
self.reading_ppeak.place(x=35, y=50)
self.reading_timestamp = Label(win,
text="Latest reading age (seconds)")
self.reading_timestamp.place(x=30, y=90)
self.reading_sample_rate = Label(win, text="Sample Rate")
self.reading_sample_rate.place(x=30, y=110)
self.reading_pressure_inches = Label(win,
text="Latest pressure (inH2O)")
self.reading_pressure_inches.place(x=30, y=130)
self.exit_button = Button(win,
text="Close App",
command=self.exit_application)
self.exit_button.place(x=460, y=1)
Thread(target=self.timestampDisplayThread, args=[]).start()
self.pressure_options = [i for i in range(0, PRESSURE_UPPER_LIMIT + 1)]
self.max_alarm_enabled = BooleanVar(False)
self.min_alarm_enabled = BooleanVar(False)
self.timeout_alarm_enabled = BooleanVar(False)
self.timeout_alarm_enabled.set(True)
self.min_alarm_enabled_checkbox = makeCheckbox(
win, "Enabled Min Pressure Alarm", self.min_alarm_enabled)
self.min_alarm_enabled_checkbox.place(x=30, y=160)
self.min_alarm_threshold_label = Label(win,
text="Minimum Pressure (cmH2O)")
self.min_alarm_threshold_label.place(x=30, y=220)
self.min_alarm_threshold_input = Combobox(win,
values=self.pressure_options)
self.min_alarm_threshold_input.current(0)
self.min_alarm_threshold_input.place(x=30, y=240)
self.min_alarm_interval_label = Label(win,
text="Alarm Interval (seconds)")
self.min_alarm_interval_label.place(x=30, y=265)
self.min_alarm_interval_input = Combobox(win, values=INTERVAL_LABELS)
self.min_alarm_interval_input.current(0)
self.min_alarm_interval_input.place(x=30, y=285)
self.max_alarm_enabled_checkbox = makeCheckbox(
win, "Enabled Max Pressure Alarm", self.max_alarm_enabled)
self.max_alarm_enabled_checkbox.place(x=280, y=160)
self.max_alarm_threshold_label = Label(win,
text="Maximum Pressure (cmH2O)")
self.max_alarm_threshold_label.place(x=280, y=220)
self.max_alarm_threshold_input = Combobox(win,
values=self.pressure_options)
self.max_alarm_threshold_input.current(len(self.pressure_options) - 31)
self.max_alarm_threshold_input.place(x=280, y=240)
self.max_alarm_interval_label = Label(win,
text="Alarm Interval (seconds)")
self.max_alarm_interval_label.place(x=280, y=265)
self.max_alarm_interval_input = Combobox(win, values=INTERVAL_LABELS)
self.max_alarm_interval_input.current(0)
self.max_alarm_interval_input.place(x=280, y=285)
self.timeout_alarm_enabled_checkbox = makeCheckbox(
win, "Enabled Lost Signal Alarm", self.timeout_alarm_enabled)
self.timeout_alarm_enabled_checkbox.place(x=30, y=320)
self.timeout_alarm_interval_label = Label(
win, text="Lost Signal Timeout (seconds)")
self.timeout_alarm_interval_label.place(x=30, y=380)
self.timeout_alarm_interval_input = Combobox(win,
values=TIMEOUT_LABELS)
self.timeout_alarm_interval_input.current(0)
self.timeout_alarm_interval_input.place(x=30, y=400)
self.test_alarm = Button(win,
text="Test Alarm",
command=self.test_alarm)
self.test_alarm.place(x=285, y=365)
self.clear_alarm = Button(win,
text="Clear Alarm",
command=self.clear_alarm)
self.clear_alarm.place(x=285, y=395)
self.alarm_active = False
self.alarm_messages = []
self.alarms_messages_var = StringVar()
self.alarms_messages_label = Label(
win, textvariable=self.alarms_messages_var, font=("Helvetica", 32))
self.alarms_messages_label.place(x=30, y=440)
self.alarms_messages_label['bg'] = 'lightgrey'
self.alarms_messages_label['fg'] = 'red'
self.player = None
self.last_seek = datetime.now()
Thread(target=self.pygletThread, args=[]).start()
Thread(target=self.alarmThread, args=[]).start()
#TODO
#self.place_dropdown(win,'Tidal volume:', self.tidal_vol, 60, 180)
#self.place_dropdown(win,'Respiratory rate:', self.resp_rate, 60, 210)
#self.place_dropdown(win,'Inspiratory/expiratory:', self.insp_exp, 60, 240)
#self.place_btn(win,"Run ventilation", self.run,60,290)
#self.place_btn(win,"Stop", self.run,180,290)
#3dpav control
self.printer = None
self.lookup = None
self.started_run = False
self._isOk = False
self.window = win
def exit_application(self):
self.manager.shutdown()
def shutdown(self):
self.window.destroy()
def boot(self):
self.window.title('3DPaV Pressure Monitor')
self.window.geometry("529x564+0+0")
self.window.mainloop()
def pygletThread(self):
self.player = Player()
source = pyglet.resource.media('red_alert.wav')
self.player.queue(source)
pyglet.app.run()
def timestampDisplayThread(self):
while True:
self.ui_updater_func()
time.sleep(0.01)
def test_alarm(self):
self.add_alarm("Test Alarm")
def clear_alarm(self):
self.alarm_active = False
self.alarm_messages = []
self.alarms_messages_label['bg'] = 'lightgrey'
self.window['bg'] = 'lightgrey'
def add_alarm(self, alarm_message):
self.alarm_active = True
self.alarm_messages = list(set(self.alarm_messages + [alarm_message]))
self.alarms_messages_label['bg'] = 'white'
self.window['bg'] = 'red'
def alarmThread(self):
while True:
now = datetime.now()
if ((now - self.last_seek).total_seconds() > LOOP_TIMEOUT_SECONDS):
self.player.seek(0)
self.last_seek = now
if (self.player):
if (self.alarm_active):
if not self.player.playing:
print('START ALERT')
self.player.play()
else:
if self.player.playing:
print('STOP ALERT')
self.player.pause()
time.sleep(0.01)
def updateReadings(self, state):
self.readings.append(
Reading(state['latestPressureValue'], state['timestamp']))
self.state = state
def ui_updater_func(self):
state = self.state
if state is None:
return
timestamp = state['timestamp']
latestPressureValue = state['latestPressureValue']
latestPPeakValue = state['latestPPeakValue']
sampleRate = state['sampleRate']
self.reading_pressure.configure(
text="Latest Pressure (cmH2O): {:10.2f}".format(
latestPressureValue))
self.reading_pressure_inches.configure(
text="Latest Pressure (inH2O): {:10.2f}".format(
latestPressureValue / INCHES_TO_CENIMETERS))
self.reading_ppeak.configure(
text="Latest PPeak (cmH2O): {:10.2f}".format(latestPPeakValue))
self.reading_sample_rate.configure(
text="Sample Rate (ms): {:10.2f}".format(sampleRate * 1000))
self.alarms_messages_var.set(", \n".join(self.alarm_messages))
now = datetime.now()
min_alarm_label = self.min_alarm_interval_input.get()
max_alarm_label = self.max_alarm_interval_input.get()
min_alarm_interval = INTERVAL_OPTIONS_MAP[min_alarm_label]
max_alarm_interval = INTERVAL_OPTIONS_MAP[max_alarm_label]
self.readings = [
r for r in self.readings
if ((now - r.stamp).total_seconds() < (2 * MAX_INTERVAL_VALUE))
]
trigger_max_alert = False
if (self.max_alarm_enabled.get()):
max_samples = [
r for r in self.readings
if ((now - r.stamp).total_seconds() < max_alarm_interval)
]
max_threshold = int(self.max_alarm_threshold_input.get())
if max_alarm_label == IMMEDIATE_KEY_WORD:
trigger_max_alert = len(
[r for r in max_samples if r.value >= max_threshold]) > 0
elif (len(max_samples) < len(self.readings)):
trigger_max_alert = len(
[r for r in max_samples if r.value < max_threshold]) == 0
trigger_min_alert = False
if (self.min_alarm_enabled.get()):
min_samples = [
r for r in self.readings
if ((now - r.stamp).total_seconds() < min_alarm_interval)
]
min_threshold = int(self.min_alarm_threshold_input.get())
if min_alarm_label == IMMEDIATE_KEY_WORD:
trigger_min_alert = len(
[r for r in min_samples if r.value <= min_threshold]) > 0
elif (len(min_samples) < len(self.readings)):
trigger_min_alert = len(
[r for r in min_samples if r.value > min_threshold]) == 0
if trigger_min_alert:
self.add_alarm("Min Pressure Alarm")
if trigger_max_alert:
self.add_alarm("Max Pressure Alarm")
if timestamp is not None:
delta_seconds = (datetime.now() - timestamp).total_seconds()
self.reading_timestamp.configure(
text="Latest reading: {:10.2f} seconds ago".format(
delta_seconds))
if (self.timeout_alarm_enabled.get()):
timeout_threshold = TIMEOUT_OPTIONS_MAP[
self.timeout_alarm_interval_input.get()]
if delta_seconds > timeout_threshold:
self.add_alarm("Signal Lost")
@property
def isOk(self):
return self._isOk
@isOk.setter
def isOk(self, new_value):
if self.debug: print('isOk being updated to ' + str(new_value))
self._isOk = new_value
if self.started_run and new_value == True:
if self.debug: print('adding another run with ' + str(self.lookup))
g_run(self, self.lookup, self.debug)
#deprecated? keep it all on one thread for now
#t = Thread(target = g_run, args =(self,self.lookup,self.debug ))
#------------------------- aesthetics
def place_dropdown(self, win, txt, vals, xstart=60, ystart=180):
self.lab = Label(win, text=txt)
self.lab.place(x=xstart, y=ystart)
self.box = Combobox(win, values=vals)
self.box.place(x=xstart + 160, y=ystart)
def place_btn(self, win, txt, cmd, xstart=60, ystart=180):
self.btn = Button(win, text=txt, command=cmd)
self.btn.place(x=xstart, y=ystart)
#-------------------------- ventilator methods
def connect(self):
if self.txtfld.get() == '':
path = '/Users/juliagonski/Documents/Columbia/3DprinterAsVentilator/pronsoleWork/Printator/sim'
else:
path = self.txtfld.get()
ser_printer = serial.Serial(path, baudRate)
print("Connecting to printer...")
time.sleep(1) # Allow time for response
if self.debug:
print("Connection response from printer:",
ser_printer.read(ser_printer.inWaiting()))
#ser_printer.write(str.encode('M400\n'))
#ser_printer.write(str.encode('M400\n'))
answer = ser_printer.readline()
if 'ok' in answer.decode("utf-8", "ignore"):
print("------ Done connecting!")
print("")
self.printer = ser_printer
self.btn_init["state"] = "normal"
def initialize(self):
g_init(self, self.debug)
self.btn_run["state"] = "normal"
#def check_run(self, win):
# if self.started_run == 1:
# answer = self.waitForOk(self.printer)
# if self.debug: print("waiting response from printer?", answer)
# if 'ok' in answer.decode("utf-8", "ignore"): g_run(self,self.debug)
# #else: print('not ventilating, not adding more runs')
# win.after(2000,self.check_run,win)
def start_run(self):
self.printer.flush()
self.started_run = True
sel_tv = self.tv.get()
sel_rr = self.rr.get()
sel_ie = self.ie.get()
self.lookup = sel_tv + "mL_" + sel_rr + "BPM_" + sel_ie
print('Started new protocol: ' + str(self.lookup))
self.btn_stop["state"] = "normal"
#Start first thread, join subsequent ones
t_orig = Thread(target=g_run, args=(self, self.lookup, self.debug))
t_orig.start()
def stop(self):
self.started_run = False
self.printer.flush()
g_stop(self, self.debug)
def waitForOk(self, ser_printer):
if self.debug: print('BEGIN waitForOk')
isItOk = False
answer = ''
quantity = ser_printer.inWaiting()
while True:
if quantity > 0:
#answer += ser_printer.read(quantity)
answer += ser_printer.read(quantity).decode("utf-8", "ignore")
##if 'ok' in answer.decode("utf-8", "ignore"):
if 'ok' in answer:
if self.debug: print('found ok, breaking')
isItOk = True
break
else:
time.sleep(read_timeout)
quantity = ser_printer.inWaiting()
#if quantity == 0:
#if self.debug: print('-------> No lines to read out')
#print('ERROR connecting!!!')
#raise ImportError()
#break
if self.debug: print('resulting answer: ', answer)
return isItOk
def waitForDONE(self, ser_printer):
if self.debug: print('----- BEGIN waitForDONE')
isItOk = False
answer = ''
quantity = ser_printer.inWaiting()
while True:
if quantity > 0:
if self.debug:
print('----- reading what the printer has to say: ',
ser_printer.read(quantity).decode("utf-8", "ignore"))
answer += ser_printer.read(quantity).decode("utf-8", "ignore")
#deprecated new firmware 0622 if 'ok' in answer:
if 'DECOMPRESSDONE' in answer:
if self.debug:
print('----- found DECMOMPRESSDONE in answer')
isItOk = True
break
else:
time.sleep(read_timeout)
quantity = ser_printer.inWaiting()
#if quantity == 0:
#if self.debug: print('-------> No lines to read out')
#print('ERROR connecting!!!')
#raise ImportError()
#break
if self.debug:
print(
'----- resulting answer of concatented printer output (should end in DECOMPRESSDONE): ',
answer)
return isItOk
class SoundPlayer(object):
def __init__(self, soundDirPath):
self.soundDirPath = soundDirPath
self.loadSounds()
self.musicPlayer = Player()
self.queue = False
self.queuePlayer = None
self.enabled = True
self.soundEffectVolume = 1.0 # between 0.0 and 1.0
self._musicVolume = 1.0 # between 0.0 and 1.0
"""
loads sounds from gui config file into dict.
maps name to pyglet sound object.
if ',stream' exists after filename in config file,
will stream file instead of loading the whole thing in once.
"""
def loadSounds(self):
self.sounds = dict()
soundTypes = dict(gui.config.items("sound_events"))
for key in soundTypes:
self._loadSoundResource(key)
@staticmethod
def _loadSoundEntry(key):
entry = gui.config.get("sound_events", key)
if "," in entry:
sp = entry.split(",")
fileName = sp[0]
if sp[1] == "stream":
stream = True
else:
fileName = entry
stream = False
return fileName, stream
def _loadSoundResource(self, key):
fileName, stream = self._loadSoundEntry(key)
if key in self.sounds:
self.sounds[key].delete()
self.sounds[key] = pyglet.resource.media(self.soundDirPath + fileName, streaming=stream)
def shutdown(self):
from pyglet.media import avbin
if self.musicPlayer.source is not None:
avbin.av.avbin_close_file(self.musicPlayer.source._file) # hack to ensure avbin closes properly.
self.musicPlayer.delete()
toDel = self.sounds.keys()
for snd in toDel:
del self.sounds[snd]
@property
def musicVolume(self):
return self._soundEffectVolume
@musicVolume.setter
def musicVolume(self, value):
self.musicPlayer.volume = value
self._musicVolume = self.musicPlayer.volume
def setMute(self, value):
self.enabled = value
def getSound(self, soundName):
try:
snd = self.sounds[soundName.lower()]
except KeyError:
print "Sound requsted to be played does not exist in config file."
return None
return snd
def playMusic(self, soundName):
if not self.enabled:
return
soundName = soundName.lower()
snd = self.getSound(soundName)
assert snd
if self.musicPlayer.playing and self.musicPlayer.source == snd:
self.musicPlayer.seek(0)
return
else:
# reload sound and reset Player obj
# (streaming sounds needs to be reloaded every time)
if isinstance(snd, pyglet.media.StreamingSource):
self._loadSoundResource(soundName)
self.musicPlayer.delete()
self.musicPlayer = Player()
self.musicPlayer.volume = self._musicVolume
looper = pyglet.media.SourceGroup(snd.audio_format, None)
looper.loop = True
looper.queue(snd)
self.musicPlayer.queue(looper)
self.musicPlayer.play()
def playEffect(self, soundName):
if not self.enabled:
return
soundName = soundName.lower()
snd = self.getSound(soundName)
assert snd
p = Player()
p.volume = self.soundEffectVolume
p.queue(snd)
p.play()
def startEffectsQueue(self):
self.queue = True
self.queuePlayer = Player()
def queueEffect(self, soundName):
if not self.enabled:
return
soundName = soundName.lower()
snd = self.getSound(soundName)
assert snd
self.queuePlayer.queue(snd)
"""
Plays the queue and resets queue state.
"""
def playEffectsQueue(self):
self.queuePlayer.volume = self.soundEffectVolume
self.queuePlayer.play()
self.queue = False
self.queuePlayer = None
class Video(object):
"""Read video file and draw it to the screen.
Parameters
----------
ec : instance of expyfun.ExperimentController
file_name : str
the video file path
pos : array-like
2-element array-like with X, Y elements.
units : str
Units to use for the position. See ``check_units`` for options.
scale : float | str
The scale factor. 1 is native size (pixel-to-pixel), 2 is twice as
large, etc. If scale is a string, it must be either ``'fill'``
(which ensures the entire ``ExperimentController`` window is
covered by the video, at the expense of some parts of the video
potentially being offscreen), or ``'fit'`` (which scales maximally
while ensuring none of the video is offscreen, and may result in
letterboxing or pillarboxing).
center : bool
If ``False``, the elements of ``pos`` specify the position of the lower
left corner of the video frame; otherwise they position the center of
the frame.
visible : bool
Whether to show the video when initialized. Can be toggled later using
`Video.set_visible` method.
Notes
-----
This is a somewhat pared-down implementation of video playback. Looping is
not available, and the audio stream from the video file is discarded.
Timing of individual frames is relegated to the pyglet media player's
internal clock. Recommended for use only in paradigms where the relative
timing of audio and video are unimportant (e.g., if the video is merely
entertainment for the participant during a passive auditory task).
"""
def __init__(self,
ec,
file_name,
pos=(0, 0),
units='norm',
scale=1.,
center=True,
visible=True):
from pyglet.media import load, Player
self._ec = ec
# On Windows, the default is unaccelerated WMF, which is terribly slow.
decoder = None
if _new_pyglet():
try:
from pyglet.media.codecs.ffmpeg import FFmpegDecoder
decoder = FFmpegDecoder()
except Exception as exc:
warnings.warn(
'FFmpeg decoder could not be instantiated, decoding '
f'performance could be compromised:\n{exc}')
self._source = load(file_name, decoder=decoder)
self._player = Player()
with warnings.catch_warnings(record=True): # deprecated eos_action
self._player.queue(self._source)
self._player._audio_player = None
frame_rate = self.frame_rate
if frame_rate is None:
logger.warning('Frame rate could not be determined')
frame_rate = 60.
self._dt = 1. / frame_rate
self._playing = False
self._finished = False
self._pos = pos
self._units = units
self._center = center
self.set_scale(scale) # also calls set_pos
self._visible = visible
self._eos_fun = self._eos_new if _new_pyglet() else self._eos_old
self._program = _create_program(ec, tex_vert, tex_frag)
gl.glUseProgram(self._program)
self._buffers = dict()
for key in ('position', 'texcoord'):
self._buffers[key] = gl.GLuint(0)
gl.glGenBuffers(1, pointer(self._buffers[key]))
w, h = self.source_width, self.source_height
tex = np.array([(0, h), (w, h), (w, 0), (0, 0)], np.float32)
gl.glBindBuffer(gl.GL_ARRAY_BUFFER, self._buffers['texcoord'])
gl.glBufferData(gl.GL_ARRAY_BUFFER, tex.nbytes, tex.tobytes(),
gl.GL_DYNAMIC_DRAW)
gl.glBindBuffer(gl.GL_ARRAY_BUFFER, 0)
gl.glUseProgram(0)
def play(self, auto_draw=True):
"""Play video from current position.
Parameters
----------
auto_draw : bool
If True, add ``self.draw`` to ``ec.on_every_flip``.
Returns
-------
time : float
The timestamp (on the parent ``ExperimentController`` timeline) at
which ``play()`` was called.
"""
if not self._playing:
if auto_draw:
self._ec.call_on_every_flip(self.draw)
self._player.play()
self._playing = True
else:
warnings.warn('ExperimentController.video.play() called when '
'already playing.')
return self._ec.get_time()
def pause(self):
"""Halt video playback.
Returns
-------
time : float
The timestamp (on the parent ``ExperimentController`` timeline) at
which ``pause()`` was called.
"""
if self._playing:
try:
idx = self._ec.on_every_flip_functions.index(self.draw)
except ValueError: # not auto_draw
pass
else:
self._ec.on_every_flip_functions.pop(idx)
self._player.pause()
self._playing = False
else:
warnings.warn('ExperimentController.video.pause() called when '
'already paused.')
return self._ec.get_time()
def _delete(self):
"""Halt video playback and remove player."""
if self._playing:
self.pause()
self._player.delete()
def set_scale(self, scale=1.):
"""Set video scale.
Parameters
----------
scale : float | str
The scale factor. 1 is native size (pixel-to-pixel), 2 is twice as
large, etc. If scale is a string, it must be either ``'fill'``
(which ensures the entire ``ExperimentController`` window is
covered by the video, at the expense of some parts of the video
potentially being offscreen), or ``'fit'`` (which scales maximally
while ensuring none of the video is offscreen, which may result in
letterboxing).
"""
if isinstance(scale, string_types):
_scale = self._ec.window_size_pix / np.array(
(self.source_width, self.source_height), dtype=float)
if scale == 'fit':
scale = _scale.min()
elif scale == 'fill':
scale = _scale.max()
self._scale = float(scale) # allows [1, 1., '1']; others: ValueError
if self._scale <= 0:
raise ValueError('Video scale factor must be strictly positive.')
self.set_pos(self._pos, self._units, self._center)
def set_pos(self, pos, units='norm', center=True):
"""Set video position.
Parameters
----------
pos : array-like
2-element array-like with X, Y elements.
units : str
Units to use for the position. See ``check_units`` for options.
center : bool
If ``False``, the elements of ``pos`` specify the position of the
lower left corner of the video frame; otherwise they position the
center of the frame.
"""
pos = np.array(pos, float)
if pos.size != 2:
raise ValueError('pos must be a 2-element array')
pos = np.reshape(pos, (2, 1))
pix = self._ec._convert_units(pos, units, 'pix').ravel()
offset = np.array((self.width, self.height)) // 2 if center else 0
self._pos = pos
self._actual_pos = pix - offset
self._pos_unit = units
self._pos_centered = center
def _draw(self):
tex = self._player.get_texture()
gl.glUseProgram(self._program)
gl.glActiveTexture(gl.GL_TEXTURE0)
gl.glBindTexture(tex.target, tex.id)
gl.glBindVertexArray(0)
x, y = self._actual_pos
w = self.source_width * self._scale
h = self.source_height * self._scale
pos = np.array([(x, y), (x + w, y), (x + w, y + h), (x, y + h)],
np.float32)
gl.glBindBuffer(gl.GL_ARRAY_BUFFER, self._buffers['position'])
gl.glBufferData(gl.GL_ARRAY_BUFFER, pos.nbytes, pos.tobytes(),
gl.GL_DYNAMIC_DRAW)
loc_pos = gl.glGetAttribLocation(self._program, b'a_position')
gl.glEnableVertexAttribArray(loc_pos)
gl.glVertexAttribPointer(loc_pos, 2, gl.GL_FLOAT, gl.GL_FALSE, 0, 0)
gl.glBindBuffer(gl.GL_ARRAY_BUFFER, self._buffers['texcoord'])
loc_tex = gl.glGetAttribLocation(self._program, b'a_texcoord')
gl.glEnableVertexAttribArray(loc_tex)
gl.glVertexAttribPointer(loc_tex, 2, gl.GL_FLOAT, gl.GL_FALSE, 0, 0)
gl.glBindBuffer(gl.GL_ARRAY_BUFFER, 0)
gl.glDrawArrays(gl.GL_QUADS, 0, 4)
gl.glDisableVertexAttribArray(loc_pos)
gl.glDisableVertexAttribArray(loc_tex)
gl.glUseProgram(0)
gl.glBindTexture(tex.target, 0)
def draw(self):
"""Draw the video texture to the screen buffer."""
self._player.update_texture()
# detect end-of-stream to prevent pyglet from hanging:
if not self._eos:
if self._visible:
self._draw()
else:
self._finished = True
self.pause()
self._ec.check_force_quit()
def set_visible(self, show, flip=False):
"""Show/hide the video frame.
Parameters
----------
show : bool
Show or hide.
flip : bool
If True, flip after showing or hiding.
"""
if show:
self._visible = True
self._draw()
else:
self._visible = False
self._ec.flip()
if flip:
self._ec.flip()
# PROPERTIES
@property
def _eos(self):
return self._eos_fun()
def _eos_old(self):
return (self._player._last_video_timestamp is not None
and self._player._last_video_timestamp
== self._source.get_next_video_timestamp())
def _eos_new(self):
ts = self._source.get_next_video_timestamp()
dur = self._source._duration
return ts is None or ts >= dur
@property
def playing(self):
return self._playing
@property
def finished(self):
return self._finished
@property
def position(self):
return np.squeeze(self._pos)
@property
def scale(self):
return self._scale
@property
def duration(self):
return self._source.duration
@property
def frame_rate(self):
return self._source.video_format.frame_rate
@property
def dt(self):
return self._dt
@property
def time(self):
return self._player.time
@property
def width(self):
return self.source_width * self._scale
@property
def height(self):
return self.source_height * self._scale
@property
def source_width(self):
return self._source.video_format.width
@property
def source_height(self):
return self._source.video_format.height
@property
def time_offset(self):
return self._ec.get_time() - self._player.time
class Video(object):
"""Read video file and draw it to the screen
Parameters
----------
ec : instance of expyfun.ExperimentController
file_name : str
the video file path
pos : array-like
2-element array-like with X, Y elements.
units : str
Units to use for the position. See ``check_units`` for options.
scale : float | str
The scale factor. 1 is native size (pixel-to-pixel), 2 is twice as
large, etc. If `scale` is a string, it must be either ``'fill'``
(which ensures the entire ``ExperimentController`` window is
covered by the video, at the expense of some parts of the video
potentially being offscreen), or ``'fit'`` (which scales maximally
while ensuring none of the video is offscreen, and may result in
letterboxing or pillarboxing).
center : bool
If ``False``, the elements of ``pos`` specify the position of the lower
left corner of the video frame; otherwise they position the center of
the frame.
visible : bool
Whether to show the video when initialized. Can be toggled later using
``set_visible`` method.
Returns
-------
None
Notes
-----
This is a somewhat pared-down implementation of video playback. Looping is
not available, and the audio stream from the video file is discarded.
Timing of individual frames is relegated to the pyglet media player's
internal clock. Recommended for use only in paradigms where the relative
timing of audio and video are unimportant (e.g., if the video is merely
entertainment for the participant during a passive auditory task).
"""
def __init__(self, ec, file_name, pos=(0, 0), units='norm', scale=1.,
center=True, visible=True):
from pyglet.media import load, Player
self._ec = ec
self._source = load(file_name)
self._player = Player()
self._player.queue(self._source)
self._player._audio_player = None
frame_rate = self.frame_rate
if frame_rate is None:
logger.warning('Frame rate could not be determined')
frame_rate = 60.
self._dt = 1. / frame_rate
self._texture = None
self._playing = False
self._finished = False
self._pos = pos
self._units = units
self._center = center
self.set_scale(scale) # also calls set_pos
self._visible = visible
def play(self):
"""Play video from current position.
Returns
-------
time : float
The timestamp (on the parent ``ExperimentController`` timeline) at
which ``play()`` was called.
"""
if not self._playing:
self._ec.call_on_every_flip(self.draw)
self._player.play()
self._playing = True
else:
warnings.warn('ExperimentController.video.play() called when '
'already playing.')
return self._ec.get_time()
def pause(self):
"""Halt video playback.
Returns
-------
time : float
The timestamp (on the parent ``ExperimentController`` timeline) at
which ``pause()`` was called.
"""
if self._playing:
idx = self._ec.on_every_flip_functions.index(self.draw)
self._ec.on_every_flip_functions.pop(idx)
self._player.pause()
self._playing = False
else:
warnings.warn('ExperimentController.video.pause() called when '
'already paused.')
return self._ec.get_time()
def _delete(self):
"""Halt video playback and remove player."""
if self._playing:
self.pause()
self._player.delete()
def _scale_texture(self):
if self._texture:
self._texture.width = self.source_width * self._scale
self._texture.height = self.source_height * self._scale
def set_scale(self, scale=1.):
"""Set video scale.
Parameters
----------
scale : float | str
The scale factor. 1 is native size (pixel-to-pixel), 2 is twice as
large, etc. If `scale` is a string, it must be either ``'fill'``
(which ensures the entire ``ExperimentController`` window is
covered by the video, at the expense of some parts of the video
potentially being offscreen), or ``'fit'`` (which scales maximally
while ensuring none of the video is offscreen, which may result in
letterboxing).
"""
if isinstance(scale, string_types):
_scale = self._ec.window_size_pix / np.array((self.source_width,
self.source_height),
dtype=float)
if scale == 'fit':
scale = _scale.min()
elif scale == 'fill':
scale = _scale.max()
self._scale = float(scale) # allows [1, 1., '1']; others: ValueError
if self._scale <= 0:
raise ValueError('Video scale factor must be strictly positive.')
self._scale_texture()
self.set_pos(self._pos, self._units, self._center)
def set_pos(self, pos, units='norm', center=True):
"""Set video position.
Parameters
----------
pos : array-like
2-element array-like with X, Y elements.
units : str
Units to use for the position. See ``check_units`` for options.
center : bool
If ``False``, the elements of ``pos`` specify the position of the
lower left corner of the video frame; otherwise they position the
center of the frame.
"""
pos = np.array(pos, float)
if pos.size != 2:
raise ValueError('pos must be a 2-element array')
pos = np.reshape(pos, (2, 1))
pix = self._ec._convert_units(pos, units, 'pix').ravel()
offset = np.array((self.width, self.height)) // 2 if center else 0
self._pos = pos
self._actual_pos = pix - offset
self._pos_unit = units
self._pos_centered = center
def _draw(self):
self._texture = self._player.get_texture()
self._scale_texture()
self._texture.blit(*self._actual_pos)
def draw(self):
"""Draw the video texture to the screen buffer."""
self._player.update_texture()
# detect end-of-stream to prevent pyglet from hanging:
if not self._eos:
if self._visible:
self._draw()
else:
self._finished = True
self.pause()
self._ec.check_force_quit()
def set_visible(self, show, flip=False):
"""Show/hide the video frame."""
if show:
self._visible = True
self._draw()
else:
self._visible = False
self._ec.flip()
if flip:
self._ec.flip()
# PROPERTIES
@property
def _eos(self):
return (self._player._last_video_timestamp is not None and
self._player._last_video_timestamp ==
self._source.get_next_video_timestamp())
@property
def playing(self):
return self._playing
@property
def finished(self):
return self._finished
@property
def position(self):
return np.squeeze(self._pos)
@property
def scale(self):
return self._scale
@property
def duration(self):
return self._source.duration
@property
def frame_rate(self):
return self._source.video_format.frame_rate
@property
def dt(self):
return self._dt
@property
def time(self):
return self._player.time
@property
def width(self):
return self.source_width * self._scale
@property
def height(self):
return self.source_height * self._scale
@property
def source_width(self):
return self._source.video_format.width
@property
def source_height(self):
return self._source.video_format.height
@property
def time_offset(self):
return self._ec.get_time() - self._player.time
from pyglet.media import Source, Player, load
a = {
'id': 'Lost3',
}
player = Player()
Source = load(a['id'] +'.mp3')
player.queue(Source)
player.play()
while True:
playorpause = input('Press pl for play, pa for pause, st for stop')
if playorpause == 'pl':
player.play()
elif playorpause == 'pa':
player.pause()
elif playorpause == 'st':
player.pause()
break
def queue(self, source):
source_group = SourceGroup(source.audio_format, source.video_format)
source_group.queue(source)
Player.queue(self, source_group)
source_group.loop = self.loop
class Core(object):
"""central business logic of the game"""
def __init__(self):
"""initializer"""
self.game = None
self.config = Config()
self.sender = ""
self.timestamp = 0
self.TSP = 0
# event handlers
events.push_handlers(start_game=self.start_game,
sound_switch=self.sound_switch,
quick_battle=self.quick_battle,
modify_speed=self._change_time)
self.intromusic = Player()
source = load("music/music_title.wav")
self.intromusic.queue(source)
self.intromusic.volume=0.4 * self.config.sound_switch
def tick_time(self, timestamp):
self.timestamp=timestamp
def _change_time(self, speed_modifier):
"""
Changes time according to the request.
"""
self.config.change_time_speed(speed_modifier)
events.emit_speed_was_modified()
def start_game(self,action):
"""event handler for starting the game"""
self.game_name = "original64" # "demo" # TODO it should be gotten as an argument
self.game = Game(self.game_name)
XMLParser.load_cities(self.game_name)
XMLParser.load_wagons(self.game_name)
XMLParser.load_items(self.game_name)
XMLParser.load_lang_file(self.game_name, "EN")
self.query_mover("Transarctica").init_train()
if action=="L":
XMLParser.load_game(self.game_name, "Transarctica", self.query_mover("Transarctica"))
self.query_mover("Transarctica").game_loaded(self.config.loaded_objects["Transarctica"])
for id in range(self.config.vutrain_count):
self.query_mover("VUTrain"+str(id)).game_loaded(self.config.loaded_objects["VUTrain"+str(id)])
for id in range(self.config.roamer_count):
self.query_mover("Roamer"+str(id)).game_loaded(self.config.loaded_objects["Roamer"+str(id)])
else:
for id in range(self.config.vutrain_count):
self.query_mover("VUTrain"+str(id)).respawn_timestamp+=self.config.start_timestamp
self.query_mover("Transarctica").init_assets()
events.emit_show_worldmap(self.game.map_file)
def quick_battle(self):
print("No boom today. Boom tomorrow. There's always a boom tomorrow.")
events.emit_show_combat()
def sound_switch(self):
if self.config.sound_switch==1:
self.config.sound_switch=0
else:
self.config.sound_switch=1
self.intromusic.volume=0.4 * self.config.sound_switch
def query_mover(self, actor_name):
return self.game.query_mover(actor_name)
def switch_intro_music(self, on_off):
if on_off:
self.intromusic.play()
else:
self.intromusic.pause()
def save_game(self):
XMLParser.save_game(self.game_name, "Transarctica", self.query_mover("Transarctica"))
class Video(object):
"""Read video file and draw it to the screen
Parameters
----------
ec : instance of expyfun.ExperimentController
file_name : str
the video file path
pos : array-like
2-element array-like with X, Y elements.
units : str
Units to use for the position. See ``check_units`` for options.
scale : float | str
The scale factor. 1 is native size (pixel-to-pixel), 2 is twice as
large, etc. If `scale` is a string, it must be either ``'fill'``
(which ensures the entire ``ExperimentController`` window is
covered by the video, at the expense of some parts of the video
potentially being offscreen), or ``'fit'`` (which scales maximally
while ensuring none of the video is offscreen, and may result in
letterboxing or pillarboxing).
center : bool
If ``False``, the elements of ``pos`` specify the position of the lower
left corner of the video frame; otherwise they position the center of
the frame.
visible : bool
Whether to show the video when initialized. Can be toggled later using
``set_visible`` method.
Returns
-------
None
Notes
-----
This is a somewhat pared-down implementation of video playback. Looping is
not available, and the audio stream from the video file is discarded.
Timing of individual frames is relegated to the pyglet media player's
internal clock. Recommended for use only in paradigms where the relative
timing of audio and video are unimportant (e.g., if the video is merely
entertainment for the participant during a passive auditory task).
"""
def __init__(self,
ec,
file_name,
pos=(0, 0),
units='norm',
scale=1.,
center=True,
visible=True):
from pyglet.media import load, Player
self._ec = ec
self._source = load(file_name)
self._player = Player()
with warnings.catch_warnings(record=True): # deprecated eos_action
self._player.queue(self._source)
self._player._audio_player = None
frame_rate = self.frame_rate
if frame_rate is None:
logger.warning('Frame rate could not be determined')
frame_rate = 60.
self._dt = 1. / frame_rate
self._texture = None
self._playing = False
self._finished = False
self._pos = pos
self._units = units
self._center = center
self.set_scale(scale) # also calls set_pos
self._visible = visible
def play(self):
"""Play video from current position.
Returns
-------
time : float
The timestamp (on the parent ``ExperimentController`` timeline) at
which ``play()`` was called.
"""
if not self._playing:
self._ec.call_on_every_flip(self.draw)
self._player.play()
self._playing = True
else:
warnings.warn('ExperimentController.video.play() called when '
'already playing.')
return self._ec.get_time()
def pause(self):
"""Halt video playback.
Returns
-------
time : float
The timestamp (on the parent ``ExperimentController`` timeline) at
which ``pause()`` was called.
"""
if self._playing:
idx = self._ec.on_every_flip_functions.index(self.draw)
self._ec.on_every_flip_functions.pop(idx)
self._player.pause()
self._playing = False
else:
warnings.warn('ExperimentController.video.pause() called when '
'already paused.')
return self._ec.get_time()
def _delete(self):
"""Halt video playback and remove player."""
if self._playing:
self.pause()
self._player.delete()
def _scale_texture(self):
if self._texture:
self._texture.width = self.source_width * self._scale
self._texture.height = self.source_height * self._scale
def set_scale(self, scale=1.):
"""Set video scale.
Parameters
----------
scale : float | str
The scale factor. 1 is native size (pixel-to-pixel), 2 is twice as
large, etc. If `scale` is a string, it must be either ``'fill'``
(which ensures the entire ``ExperimentController`` window is
covered by the video, at the expense of some parts of the video
potentially being offscreen), or ``'fit'`` (which scales maximally
while ensuring none of the video is offscreen, which may result in
letterboxing).
"""
if isinstance(scale, string_types):
_scale = self._ec.window_size_pix / np.array(
(self.source_width, self.source_height), dtype=float)
if scale == 'fit':
scale = _scale.min()
elif scale == 'fill':
scale = _scale.max()
self._scale = float(scale) # allows [1, 1., '1']; others: ValueError
if self._scale <= 0:
raise ValueError('Video scale factor must be strictly positive.')
self._scale_texture()
self.set_pos(self._pos, self._units, self._center)
def set_pos(self, pos, units='norm', center=True):
"""Set video position.
Parameters
----------
pos : array-like
2-element array-like with X, Y elements.
units : str
Units to use for the position. See ``check_units`` for options.
center : bool
If ``False``, the elements of ``pos`` specify the position of the
lower left corner of the video frame; otherwise they position the
center of the frame.
"""
pos = np.array(pos, float)
if pos.size != 2:
raise ValueError('pos must be a 2-element array')
pos = np.reshape(pos, (2, 1))
pix = self._ec._convert_units(pos, units, 'pix').ravel()
offset = np.array((self.width, self.height)) // 2 if center else 0
self._pos = pos
self._actual_pos = pix - offset
self._pos_unit = units
self._pos_centered = center
def _draw(self):
self._texture = self._player.get_texture()
self._scale_texture()
self._texture.blit(*self._actual_pos)
def draw(self):
"""Draw the video texture to the screen buffer."""
self._player.update_texture()
# detect end-of-stream to prevent pyglet from hanging:
if not self._eos:
if self._visible:
self._draw()
else:
self._finished = True
self.pause()
self._ec.check_force_quit()
def set_visible(self, show, flip=False):
"""Show/hide the video frame."""
if show:
self._visible = True
self._draw()
else:
self._visible = False
self._ec.flip()
if flip:
self._ec.flip()
# PROPERTIES
@property
def _eos(self):
return (self._player._last_video_timestamp is not None
and self._player._last_video_timestamp
== self._source.get_next_video_timestamp())
@property
def playing(self):
return self._playing
@property
def finished(self):
return self._finished
@property
def position(self):
return np.squeeze(self._pos)
@property
def scale(self):
return self._scale
@property
def duration(self):
return self._source.duration
@property
def frame_rate(self):
return self._source.video_format.frame_rate
@property
def dt(self):
return self._dt
@property
def time(self):
return self._player.time
@property
def width(self):
return self.source_width * self._scale
@property
def height(self):
return self.source_height * self._scale
@property
def source_width(self):
return self._source.video_format.width
@property
def source_height(self):
return self._source.video_format.height
@property
def time_offset(self):
return self._ec.get_time() - self._player.time
class AudioManager:
def __init__(self, assets: Assets, channels: int):
self.assets = assets
self.channels = channels
self.logger = logging.getLogger(__name__)
self.music_player = Player()
self.sfx_players = [Player() for player in range(self.channels)]
self.music_player.volume = 0.5
self.songs = {}
self._debug_info()
if get_audio_driver().__class__.__name__ == "DirectSoundDriver":
self.logger.warn("Using the directsound driver may have negative impacts on performance. It is recomended to use OpenAL instead")
def _play_song(self):
if not self.music_player.playing:
self.music_player.play()
else:
self.music_player.next_source()
def _load_song(self, path: str) -> Source:
if path not in self.songs:
self.songs[path] = self.assets.get_pyglet_media(path)
return self.songs[path]
def _debug_info(self):
self.logger.debug("=*=*=*=*=*= Audio Debug Information =*=*=*=*=*=")
self.logger.debug(f"Audio Driver Class: { get_audio_driver().__class__.__name__ }")
self.logger.debug(f" FFmpeg Installed: { have_ffmpeg() }")
self.logger.debug("=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=*=")
def play_song(self, path: str, loop: bool = False):
media_file = self._load_song(path)
self.music_player.loop = loop
self.music_player.queue(media_file)
self._play_song()
def load_songs(self, paths: list, loop: bool = False):
for path in paths:
media_file = self._load_song(path)
self.music_player.queue(media_file)
if loop:
self.loop_songs_list = paths
self.music_player.on_player_eos = lambda: self._loop_eos(paths)
def _loop_eos(self, paths: list):
self.load_songs(paths, True)
self.play_songs()
def play_songs(self):
self._play_song()
def get_music_volume(self) -> float:
return self.music_player.volume
def set_music_volume(self, volume: float):
self.music_player.volume = volume
def play_sfx(self, path: str):
pass
anchor_y = 'top')
state = 'playing'
pause_label = Label('PAUSED',
font_size=36,
x = window.width/2,
y = window.height/2,
anchor_x = 'center', anchor_y = 'center')
bounce_sound = resource.media('sounds/bounce.wav', streaming=False)
goal_sound = resource.media('sounds/goal.wav', streaming=False)
music = resource.media('sounds/ride-the-storm.ogg')
music_player = Player()
music_player.queue(music)
music_player.volume = 0.5
music_player.eos_action = music_player.EOS_LOOP
music_player.play()
@window.event
def on_draw():
window.clear()
if state == 'playing' or state == 'scored':
ball.draw()
paddle1.draw()
paddle2.draw()
score_label_1.draw()
score_label_2.draw()
if state == 'paused':
pause_label.draw()
class SoundManager(object):
volume_factor = InterpDesc('_volume_factor') # 音量系数
def __init__(self):
self.cur_bgm = None
self.bgm_next = None
self.bgm_switching = False
self.bgm_player = Player()
self.volume = 1.0 # 音量
self.bgm_player.eos_action = Player.EOS_LOOP
self.muted = False
def switch_bgm(self, bgm):
if self.muted:
self.bgm_next = bgm
return
if not self.cur_bgm:
self.instant_switch_bgm(bgm)
return
if bgm is self.cur_bgm:
return
self.volume_factor = LinearInterp(1.0, 0.0, 1.0)
self.bgm_next = bgm
if not self.bgm_switching:
self.bgm_switching = True
pyglet.clock.schedule_interval(self._set_vol, 0.1)
pyglet.clock.schedule_once(self._bgm_fade_out_done, 1.0)
def _bgm_fade_out_done(self, _=None):
pyglet.clock.unschedule(self._set_vol)
self.bgm_player.next()
self.bgm_player.queue(self.bgm_next())
self.volume_factor = 1.0
self._set_vol()
self.bgm_player.play()
self.bgm_switching = False
self.cur_bgm = self.bgm_next
self.bgm_next = None
def instant_switch_bgm(self, bgm):
pyglet.clock.unschedule(self._bgm_fade_out_done)
self.bgm_next = bgm
if not self.muted:
self._bgm_fade_out_done()
def mute(self):
if self.muted: return
self.muted = True
self.volume_factor = 0.0
self.bgm_player.pause()
pyglet.clock.unschedule(self._set_vol)
pyglet.clock.unschedule(self._bgm_fade_out_done)
self.bgm_next = self.cur_bgm
self.cur_bgm = None
def unmute(self):
if not self.muted: return
self.muted = False
self.bgm_next and self.instant_switch_bgm(self.bgm_next)
def play(self, snd):
if self.muted: return
player = ManagedSoundPlayer()
player.volume = self.volume
player.queue(snd)
player.play()
def set_volume(self, vol):
self.volume = vol
self._set_vol()
def get_volume(self):
return self.volume * self.volume_factor
def _set_vol(self, _=None):
self.bgm_player.volume = self.volume_factor * self.volume
class SoundPlayer(object):
def __init__(self, soundDirPath):
self.soundDirPath = soundDirPath
self.loadSounds()
self.musicPlayer = Player()
self.queue = False
self.queuePlayer = None
self.enabled = True
self.soundEffectVolume = 1.0 # between 0.0 and 1.0
self._musicVolume = 1.0 # between 0.0 and 1.0
'''
loads sounds from gui config file into dict.
maps name to pyglet sound object.
if ',stream' exists after filename in config file,
will stream file instead of loading the whole thing in once.
'''
def loadSounds(self):
self.sounds = dict()
soundTypes = dict(gui.config.items('sound_events'))
for key in soundTypes:
self._loadSoundResource(key)
@staticmethod
def _loadSoundEntry(key):
entry = gui.config.get('sound_events', key)
if ',' in entry:
sp = entry.split(",")
fileName = sp[0]
if sp[1] == "stream":
stream = True
else:
fileName = entry
stream = False
return fileName, stream
def _loadSoundResource(self, key):
fileName, stream = self._loadSoundEntry(key)
if key in self.sounds:
self.sounds[key].delete()
self.sounds[key] = pyglet.resource.media(self.soundDirPath + fileName,
streaming=stream)
def shutdown(self):
from pyglet.media import avbin
if self.musicPlayer.source is not None:
avbin.av.avbin_close_file(
self.musicPlayer.source._file
) # hack to ensure avbin closes properly.
self.musicPlayer.delete()
toDel = self.sounds.keys()
for snd in toDel:
del self.sounds[snd]
@property
def musicVolume(self):
return self._soundEffectVolume
@musicVolume.setter
def musicVolume(self, value):
self.musicPlayer.volume = value
self._musicVolume = self.musicPlayer.volume
def setMute(self, value):
self.enabled = value
def getSound(self, soundName):
try:
snd = self.sounds[soundName.lower()]
except KeyError:
print "Sound requsted to be played does not exist in config file."
return None
return snd
def playMusic(self, soundName):
if not self.enabled:
return
soundName = soundName.lower()
snd = self.getSound(soundName)
assert snd
if self.musicPlayer.playing and self.musicPlayer.source == snd:
self.musicPlayer.seek(0)
return
else:
# reload sound and reset Player obj
# (streaming sounds needs to be reloaded every time)
if isinstance(snd, pyglet.media.StreamingSource):
self._loadSoundResource(soundName)
self.musicPlayer.delete()
self.musicPlayer = Player()
self.musicPlayer.volume = self._musicVolume
looper = pyglet.media.SourceGroup(snd.audio_format, None)
looper.loop = True
looper.queue(snd)
self.musicPlayer.queue(looper)
self.musicPlayer.play()
def playEffect(self, soundName):
if not self.enabled:
return
soundName = soundName.lower()
snd = self.getSound(soundName)
assert snd
p = Player()
p.volume = self.soundEffectVolume
p.queue(snd)
p.play()
def startEffectsQueue(self):
self.queue = True
self.queuePlayer = Player()
def queueEffect(self, soundName):
if not self.enabled:
return
soundName = soundName.lower()
snd = self.getSound(soundName)
assert snd
self.queuePlayer.queue(snd)
'''
Plays the queue and resets queue state.
'''
def playEffectsQueue(self):
self.queuePlayer.volume = self.soundEffectVolume
self.queuePlayer.play()
self.queue = False
self.queuePlayer = None
def queue(self, source):
source_group = SourceGroup(source.audio_format, source.video_format)
source_group.queue(source)
Player.queue(self, source_group)
source_group.loop = self.loop
class SoundManager(object):
volume_factor = InterpDesc('_volume_factor') # 音量系数
def __init__(self):
self.cur_bgm = None
self.bgm_next = None
self.bgm_switching = False
self.bgm_player = Player()
self.volume = 1.0 # 音量
self.bgm_player.eos_action = Player.EOS_LOOP
self.muted = False
def switch_bgm(self, bgm):
if self.muted:
self.bgm_next = bgm
return
if not self.cur_bgm:
self.instant_switch_bgm(bgm)
return
if bgm is self.cur_bgm:
return
self.volume_factor = LinearInterp(1.0, 0.0, 1.0)
self.bgm_next = bgm
if not self.bgm_switching:
self.bgm_switching = True
pyglet.clock.schedule_interval(self._set_vol, 0.1)
pyglet.clock.schedule_once(self._bgm_fade_out_done, 1.0)
def _bgm_fade_out_done(self, _=None):
pyglet.clock.unschedule(self._set_vol)
self.bgm_player.next()
self.bgm_player.queue(self.bgm_next())
self.volume_factor = 1.0
self._set_vol()
self.bgm_player.play()
self.bgm_switching = False
self.cur_bgm = self.bgm_next
self.bgm_next = None
def instant_switch_bgm(self, bgm):
pyglet.clock.unschedule(self._bgm_fade_out_done)
self.bgm_next = bgm
if not self.muted:
self._bgm_fade_out_done()
def mute(self):
if self.muted: return
self.muted = True
self.volume_factor = 0.0
self.bgm_player.pause()
pyglet.clock.unschedule(self._set_vol)
pyglet.clock.unschedule(self._bgm_fade_out_done)
self.bgm_next = self.cur_bgm
self.cur_bgm = None
def unmute(self):
if not self.muted: return
self.muted = False
self.bgm_next and self.instant_switch_bgm(self.bgm_next)
def play(self, snd):
if self.muted: return
player = ManagedSoundPlayer()
player.volume = self.volume
player.queue(snd)
player.play()
def set_volume(self, vol):
self.volume = vol
self._set_vol()
def _set_vol(self, _=None):
self.bgm_player.volume = self.volume_factor * self.volume
'progress_hooks': [my_hook],
}
with youtube_dl.YoutubeDL(ydl_opts) as ydl:
ydl.download(['https://www.youtube.com/watch?v=BaW_jenozKc'])
with youtube_dl.YoutubeDL(ydl_opts) as ydl:
info_dict = ydl.extract_info("https://www.youtube.com/watch?v=CxMvQkcdPl8",
download=True)
with open('data.json', 'w') as f:
json.dump(info_dict, f)
# newString = 'I love coding more than anything else'
# with open("testFile.txt", 'a') as out:
# out.write(newString )
# music = pyglet.resource.media('crowd-cheering.wav.mp3')
# music.play()
# pyglet.app.run()
from pyglet.media import Source, Player, load
player = Player()
source = load('crowd-cheering.wav.mp3')
player.queue(source)
player.play()
while True:
input('Press any key to exit')
break
class BeatSaber(moderngl_window.WindowConfig):
title = "Beat Saber Light Show"
window_size = 1920, 1080
cursor = False
aspect_ratio = None
def __init__(self, **kwargs):
super().__init__(**kwargs)
self.wnd.mouse_exclusivity = False
self.bpm = 242 # Hardcode bpm from info.dat
self.camera = KeyboardCamera(self.wnd.keys,
fov=60,
near=1.0,
far=1000.0)
self.camera.velocity = 50
self.camera_enabled = False
meta = self.load_json('megalovania_remix/info.dat')
self.map = BSScene(
self.load_scene('bs_map3.glb'),
self.camera,
BSTrack('megalovania_remix/Expert.dat', meta['_beatsPerMinute']),
)
self.quad_fs = geometry.quad_fs()
# Postprocess programs
self.copy_prog = self.load_program('programs/copy.glsl')
self.copy_greyscale_prog = self.load_program(
'programs/copy_greyscale.glsl')
self.blur_h_prog = self.load_program('programs/blur_h.glsl')
self.blur_v_prog = self.load_program('programs/blur_v.glsl')
self.combine = self.load_program('programs/combine.glsl')
self.combine['texture1'] = 1
# blur stuff
self.offscreen_texture = self.ctx.texture(
(self.wnd.buffer_width, self.wnd.buffer_height), 4)
self.offscreen_depth = self.ctx.depth_texture(
(self.wnd.buffer_width, self.wnd.buffer_height))
self.offscreen = self.ctx.framebuffer(
color_attachments=[self.offscreen_texture],
depth_attachment=self.offscreen_depth,
)
bd = 1
self.blur_h_texture = self.ctx.texture(
(self.wnd.buffer_width // bd, self.wnd.buffer_height // bd), 4)
self.blur_h_texture.repeat_x = False
self.blur_h_texture.repeat_y = False
self.blur_h = self.ctx.framebuffer(
color_attachments=[self.blur_h_texture])
self.blur_v_texture = self.ctx.texture(
(self.wnd.buffer_width // bd, self.wnd.buffer_height // bd), 4)
self.blur_v_texture.repeat_x = False
self.blur_v_texture.repeat_y = False
self.blur_v = self.ctx.framebuffer(
color_attachments=[self.blur_v_texture])
self.music_player = Player()
self.music_source = StaticSource(
load(RESOURCE_DIR / 'megalovania_remix/song.wav'))
self.music_player.queue(self.music_source)
self.music_player.play()
# self.music_player.seek(60.0 * 4 + 50)
self.music_player.volume = 1.0
def render(self, time, frame_time):
self.offscreen.clear()
self.blur_h.clear()
self.blur_v.clear()
time = self.music_player.time
self.offscreen.use()
self.ctx.enable_only(moderngl.DEPTH_TEST | moderngl.CULL_FACE)
self.map.render(self.camera, time, frame_time)
self.ctx.enable_only(moderngl.NOTHING)
self.blur_v.use()
self.offscreen_texture.use(location=0)
self.quad_fs.render(self.copy_prog)
self.blur_v_texture.build_mipmaps(max_level=10)
self.blur_h.use()
self.blur_v_texture.use(location=0)
self.quad_fs.render(self.blur_h_prog)
self.blur_h_texture.build_mipmaps(max_level=10)
self.blur_v.use()
self.blur_h_texture.use(location=0)
self.quad_fs.render(self.blur_v_prog)
# Back to screen
self.wnd.fbo.use()
self.offscreen_texture.use(location=0)
self.blur_v_texture.use(location=1)
self.quad_fs.render(self.combine)
def key_event(self, key, action, modifiers):
keys = self.wnd.keys
if self.camera_enabled:
self.camera.key_input(key, action, modifiers)
if action == keys.ACTION_PRESS:
if key == keys.C:
self.camera_enabled = not self.camera_enabled
self.wnd.mouse_exclusivity = self.camera_enabled
self.wnd.cursor = not self.camera_enabled
if key == keys.SPACE:
self.timer.toggle_pause()
if self.music_player.playing:
self.music_player.pause()
else:
self.music_player.play()
def mouse_position_event(self, x: int, y: int, dx, dy):
if self.camera_enabled:
self.camera.rot_state(-dx, -dy)
def resize(self, width: int, height: int):
self.camera.projection.update(aspect_ratio=self.wnd.aspect_ratio)
self.map.resize()
