def __init__(self, *args, **kwargs):
self.exit = kwargs.pop('exit', False)
self.inputs_path = kwargs.pop('inputs_path', None)
super(StillCanvas, self).__init__(*args, **kwargs)
gloo.set_state(clear_color='black', blend=True, blend_func=('src_alpha', 'one_minus_src_alpha'))
self.inputs = None
if self.inputs_path is not None:
self.input_manager = FileStoredInput(self.inputs_path)
self.time = self.input_manager.stored_time
definition = Definitions[self.input_manager.stored_definition_name]
else:
self.input_manager = RandomInput()
self.time = float(random.randint(0, 345212312))
definition = Definitions[random.choice(Definitions.keys())]
self.fractal = FractalProgram(definition, mask=False)
self.apply_zoom()
self._timer = app.Timer(1.0 / 5, connect=self.update, start=True)
if self.exit:
app.Timer(1, connect=self.write_and_exit, start=True, iterations=1)
# self.update(None)
# self.update(None)
self.show()
def rotate(self, event=None):
definition = Definitions[Definitions.keys()[self.definition_position % len(Definitions.keys())]]
self.fractal = FractalProgram(definition, mask=self.show_mask)
if self.inputs:
self.fractal.adjust(self.inputs)
self.apply_zoom()
# Only rotate the user tracker if there aren't users actively interacting
if (not self.input_manager) or not self.input_manager.tracking_users:
if self.fake_inputs:
self.input_manager = FakeInput()
else:
input_manager_index = (self.input_position / 2) % len(KIOSK_INPUTS) # random.choice(range(len(KIOSK_INPUTS)))
self.input_manager = KIOSK_INPUTS[input_manager_index]()
self.mask['tipColorSelector'] = input_manager_index / float(len(KIOSK_INPUTS))
print "Rotated to %s feeding %s" % (self.input_manager, definition['name'])
self.definition_position += 1
self.input_position += 1
class StillCanvas(app.Canvas):
def __init__(self, *args, **kwargs):
self.exit = kwargs.pop('exit', False)
self.inputs_path = kwargs.pop('inputs_path', None)
super(StillCanvas, self).__init__(*args, **kwargs)
gloo.set_state(clear_color='black', blend=True, blend_func=('src_alpha', 'one_minus_src_alpha'))
self.inputs = None
if self.inputs_path is not None:
self.input_manager = FileStoredInput(self.inputs_path)
self.time = self.input_manager.stored_time
definition = Definitions[self.input_manager.stored_definition_name]
else:
self.input_manager = RandomInput()
self.time = float(random.randint(0, 345212312))
definition = Definitions[random.choice(Definitions.keys())]
self.fractal = FractalProgram(definition, mask=False)
self.apply_zoom()
self._timer = app.Timer(1.0 / 5, connect=self.update, start=True)
if self.exit:
app.Timer(1, connect=self.write_and_exit, start=True, iterations=1)
# self.update(None)
# self.update(None)
self.show()
# self.write_and_exit()
def write(self):
image = _screenshot(alpha=True)
write_png('covers2/%s.png' % self.time, image)
data = {}
data.update(self.input_manager.smoothed_inputs)
data['time'] = self.time
data['definition'] = self.fractal.definition['name']
with open('covers2/%s.yml' % self.time, 'w') as f:
yaml.dump(data, stream=f)
print "Wrote image and data for %s" % self.time
def write_and_exit(self, event=None):
self.write()
sys.exit(0)
def on_draw(self, event):
self.input_manager.time = self.time
self.fractal['time'] = self.time
self.fractal.draw()
self.inputs = self.input_manager.inputs(self.time)
self.fractal.adjust(self.inputs)
def on_resize(self, event):
self.apply_zoom()
def apply_zoom(self):
width, height = self.physical_size
gloo.set_viewport(0, 0, width, height)
self.fractal['resolution'] = [width, height]
def on_key_press(self, event):
if event.text == 'w':
self.write()
else:
self.input_manager.on_key_press(event)
print self.inputs
self.update()
class MainCanvas(app.Canvas):
def __init__(self, *args, **kwargs):
self.fake_inputs = kwargs.pop('fake_inputs', False)
self.draw_bones = kwargs.pop('draw_bones', False)
self.kiosk_interval = kwargs.pop('kiosk_interval', 0)
self.start_definition = kwargs.pop('start_definition', 0)
self.start_input = kwargs.pop('start_input', 0)
self.show_mask = kwargs.pop('mask', False)
super(MainCanvas, self).__init__(*args, **kwargs)
gloo.set_state(clear_color='black', blend=True, blend_func=('src_alpha', 'one_minus_src_alpha'))
self.skeleton_bones = SkeletonBonesProgram()
self.mask = MaskProgram()
self.inputs = None
self.input_manager = None
self._starttime = time.time()
self.definition_position = self.start_definition
self.input_position = self.start_input
self.rotate()
if self.kiosk_interval > 0:
self.kiosk_timer = app.Timer(self.kiosk_interval, connect=self.rotate, start=True)
self._timer = app.Timer('auto', connect=self.update, start=True)
self.show()
def rotate(self, event=None):
definition = Definitions[Definitions.keys()[self.definition_position % len(Definitions.keys())]]
self.fractal = FractalProgram(definition, mask=self.show_mask)
if self.inputs:
self.fractal.adjust(self.inputs)
self.apply_zoom()
# Only rotate the user tracker if there aren't users actively interacting
if (not self.input_manager) or not self.input_manager.tracking_users:
if self.fake_inputs:
self.input_manager = FakeInput()
else:
input_manager_index = (self.input_position / 2) % len(KIOSK_INPUTS) # random.choice(range(len(KIOSK_INPUTS)))
self.input_manager = KIOSK_INPUTS[input_manager_index]()
self.mask['tipColorSelector'] = input_manager_index / float(len(KIOSK_INPUTS))
print "Rotated to %s feeding %s" % (self.input_manager, definition['name'])
self.definition_position += 1
self.input_position += 1
def on_draw(self, event):
elapsed = time.time() - self._starttime
self.input_manager.time = elapsed
self.fractal['time'] = elapsed
self.fractal.draw()
self.inputs = self.input_manager.inputs(elapsed)
self.fractal.adjust(self.inputs)
if not self.fake_inputs and self.draw_bones and hasattr(self.input_manager, 'user_tracker'):
self.skeleton_bones.draw(self.input_manager.user_tracker.read_frame())
if self.show_mask:
self.mask.draw()
def on_resize(self, event):
self.apply_zoom()
def apply_zoom(self):
width, height = self.physical_size
gloo.set_viewport(0, 0, width, height)
self.fractal['resolution'] = [width, height]
self.skeleton_bones['resolution'] = [width, height]
self.mask['resolution'] = [width, height]
def on_key_press(self, event):
self.input_manager.on_key_press(event)
