Esempio n. 1
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def main():
    aspect_ratio = 1
    height = 256
    width = int(height * aspect_ratio)  # round
    name = "test.png"
    wrapper = ImageWrapper(name, width, height)
    red = Lambertian(Vector3(1, 0, 0))
    green = Lambertian(Vector3(0.2, 1, 0.1))
    camera = Camera(Vector3(0, 0, 0), Vector3(0, 1, 0), Vector3(0, 0, 1), 1,
                    90)
    spheres = [
        Sphere(Vector3(0, 10, 0), 5, red),
        Sphere(Vector3(0, 10, -100), 95, green)
    ]
    samples = 50
    for y in range(height):
        for x in range(width):
            final_color = Vector3(0, 0, 0)
            for sample in range(samples):
                ray = camera.generate_ray((x + random.random()) / width,
                                          (y + random.random()) / height)
                color = get_intersection(ray, spheres, MAX_DEPTH)
                final_color += color
            final_color /= samples
            wrapper.write_pixel(x, y, final_color)
        wrapper.save()
Esempio n. 2
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def main():
    ids, encodings = known_photos_loader.load_photos()

    process_this_frame = True

    with Camera.open_camera():
        last_found_id = None

        while True:
            frame = Camera.get_frame()

            if process_this_frame:
                faces_locations = face_recognition.face_locations(frame)
                faces_encodings = face_recognition.face_encodings(frame, faces_locations)

                for face_encoding in faces_encodings:
                    matches = face_recognition.compare_faces(encodings, face_encoding)

                    if True in matches:
                        index = matches.index(True)
                        employee_id = ids[index]

                        if last_found_id != employee_id:
                            last_found_id = employee_id

                            show_employee_welcome(employee_id)
                    else:
                        if last_found_id is not None:
                            last_found_id = None
                            LOGGER.warning("Face not recognized.")

            process_this_frame = not process_this_frame
Esempio n. 3
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 def __init__(self, name):
     super().__init__(name)
     
     self.camera = Camera((-self.display.get_width()//2, 
                         -self.display.get_height()//2), 7)
     self.camera_follow = None       #set this to an object with a .pos to have the camera follow it
     self.render_list = []           #render relitive to camera
     self.ui_render_list = []        #render without camera interference
     self.keydict = {pygame.K_ESCAPE:self.quit}
Esempio n. 4
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class Map(object):
	"""
	Class for storing tile layers
	"""
	def __init__(self, mapData):
		self.layers = []
		self.offset = {
			'x': 0,
			'y': 0
		}
		if mapData:
			self.load_map_data(mapData)
		self.camera = Camera(
			(0,0), (self.mapSize['x'], self.mapSize['y']), 10)
			
	def load_map_data(self, mapData):
		try:
			tree = ET.parse(os.path.join(MAPDATA_PATH, mapData))
		except:
			raise 'Could not open map data file.'
		
		data = tree.getroot()
		self.tileSize = {
			'x': int(data.attrib['tilewidth']),
			'y': int(data.attrib['tileheight'])
		}
		self.mapSize = {
			'x': int(data.attrib['width']) * self.tileSize['x'],
			'y': int(data.attrib['height']) * self.tileSize['y']
		}
		self.tileset = Tileset(data.find('tileset'))
		
		for prop in data.iter('property'):
			if prop.attrib['name'] == 'name':
				self.name = prop.attrib['value']
			
		for layer in data.findall('layer'):
			self.layers.append(Layer(layer, self.tileset))
		
	def update(self, events):
		self.camera.update(events)
		for layer in self.layers:
			layer.update(events, self.camera)
		
	def draw(self, surface):
		for layer in self.layers:
			layer.draw(surface)
Esempio n. 5
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	def __init__(self, mapData):
		self.layers = []
		self.offset = {
			'x': 0,
			'y': 0
		}
		if mapData:
			self.load_map_data(mapData)
		self.camera = Camera(
			(0,0), (self.mapSize['x'], self.mapSize['y']), 10)
Esempio n. 6
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class main_w_aron(Window):
    def __init__(self, name):
        super().__init__(name)
        
        self.camera = Camera((-self.display.get_width()//2, 
                            -self.display.get_height()//2), 7)
        self.camera_follow = None       #set this to an object with a .pos to have the camera follow it
        self.render_list = []           #render relitive to camera
        self.ui_render_list = []        #render without camera interference
        self.keydict = {pygame.K_ESCAPE:self.quit}

    def update(self):
        for item in self.render_list:
            item.update()
        if self.camera_follow is not None:
            self.camera.go_to(self.camera_follow.pos)

    def draw(self):
        
        for item in self.render_list:
            item.draw(self.camera.get_pos())

        for item in self.ui_render_list:
            item.draw()

    def quit(self, arg):
        self.end = True

    def keydown(self, key):
        for k in self.keydict.keys():
            if key == k:
                self.keydict[k](True)

    def keyup(self, key):
        for k in self.keydict.keys():
            if key == k:
                self.keydict[k](False)
Esempio n. 7
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    ccd_height = args.ccd_width / aspect_ratio
    # in this system we force fx == fy, but here fy computed separately
    # just for fun.
    fx = focal_len_mm * width / args.ccd_width
    fy = focal_len_mm * height / ccd_height
else:
    print("Cannot autodetect calibrated focal length, please specify a ccd-width")
    quit()
print('ccd: %.3f x %.3f' % (ccd_width, ccd_height))
print('fx fy = %.2f %.2f' % (fx, fy))

cu = width * 0.5
cv = height * 0.5
print('cu cv = %.2f %.2f' % (cu, cv))

cam = Camera.Camera()
cam.set_defaults()
cam.set_meta(make, model, lens_model)
cam.set_lens_params(ccd_width, ccd_height, focal_len_mm)
cam.set_K(fx, fy, cu, cv)
cam.set_image_params(width, height)

if os.path.exists(camera_file):
    print("Camera config file already exists:", camera_file)
    if args.force:
        print("Overwriting ...")
    else:
        print("Use [ --force ] to overwrite ...")
        quit()

print("Saving:", camera_file)
Esempio n. 8
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def get_image(camera_name, **kwargs):
    """given a camera name, snap a shot"""
    camera = Camera(camera_name)
    return camera.snap(**kwargs)
Esempio n. 9
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#from lib.Sensor import*
load = Solenoid(21)
shoot = Solenoid(19)
load.block()
shoot.block()
INPUT_PIN = 36
GPIO.setup(INPUT_PIN, GPIO.IN)
#Port 8 : RX green PB0
#Port 10: TX yellow  PB1
#serial0 - ttyAMA0
#serial1 - ttyS0
os.system("sudo modprobe bcm2835-v4l2")
base = Base()
base.step_left(197)

camera = Camera(base)

#sensor = Sensor()

ser = serial.Serial("/dev/ttyS0", 57600)  #Open port with baud rate

dist_0 = 48
dist_1 = 58
dist_2 = 64
dist_3 = 72
dist_4 = 80


def launch():
    # block off both solenoids
    load.block()