From c82080dfdff390b4713a144e89fdf3557f5738cb Mon Sep 17 00:00:00 2001 From: "deepsource-autofix[bot]" <62050782+deepsource-autofix[bot]@users.noreply.github.com> Date: Wed, 19 Jul 2023 07:45:03 +0000 Subject: [PATCH] style: format code with autopep8 Format code with autopep8 This commit fixes the style issues introduced in 6c21609 according to the output from Autopep8. Details: https://app.deepsource.com/gh/avinashkranjan/Amazing-Python-Scripts/transform/e35a1f84-7fc5-4d95-9daf-ffe63cd9c56c/ --- VoxiDesk-Smart Desktop Assistant/main.py | 290 +++++++++++------------ 1 file changed, 142 insertions(+), 148 deletions(-) diff --git a/VoxiDesk-Smart Desktop Assistant/main.py b/VoxiDesk-Smart Desktop Assistant/main.py index 2b40d2eaf9..22d479d012 100644 --- a/VoxiDesk-Smart Desktop Assistant/main.py +++ b/VoxiDesk-Smart Desktop Assistant/main.py @@ -18,18 +18,22 @@ voices = engine.getProperty('voices') engine.setProperty('voice', voices[1].id) + def talk(text): engine.say(text) engine.runAndWait() + talk('Hello buddy , What can i help you') -def take_command(): + + +def take_command(): try: with sr.Microphone() as source: print('listening...') voice = listener.listen(source) command = listener.recognize_google(voice) - command =command.lower() + command = command.lower() if 'nova' in command: command = command.replace('nova', '') print(command) @@ -37,23 +41,24 @@ def take_command(): pass return command + def run_alexa(): - command =take_command() + command = take_command() print(command) - #play song on youtube + # play song on youtube if 'play' in command: song = command.replace('play', '') talk('playing' + song) pywhatkit.playonyt(song) - #Current time + # Current time elif 'time' in command: time = datetime.datetime.now().strftime('%H:%M') print(time) - talk('Current time is '+ time) + talk('Current time is ' + time) - #wikipedia answer + # wikipedia answer elif 'what is' in command: person = command.replace('See', '') info = wikipedia.summary(person, 2) @@ -70,176 +75,165 @@ def run_alexa(): print(info) talk(info) - #fun with nova + # fun with nova elif 'i love you' in command: talk('i love you too') elif 'what are you doing' in command: talk('I am talking to you') elif 'are you single' in command: talk('I am relationship with wifi') - + elif 'joke' in command: print(pyjokes.get_joke()) talk(pyjokes.get_joke()) - #current location + # current location elif 'location' in command: g = geocoder.ip('me') print(g.city) talk('your current location is' + g.city) - #take a screen shot + # take a screen shot elif 'screenshot' in command: im = pyautogui.screenshot() im.save("SS1.jpg") - #Take some photo + # Take some photo elif 'take a photo' in command: - pygame.camera.init() - camlist = pygame.camera.list_cameras() - if camlist: - cam = pygame.camera.Camera(camlist[0], (640, 480)) - cam.start() - image = cam.get_image() - pygame.image.save(image, "filename.jpg") - else: - print("No camera on current device") - - - #play snake game + pygame.camera.init() + camlist = pygame.camera.list_cameras() + if camlist: + cam = pygame.camera.Camera(camlist[0], (640, 480)) + cam.start() + image = cam.get_image() + pygame.image.save(image, "filename.jpg") + else: + print("No camera on current device") + + # play snake game elif 'snake game' in command: - w = 500 - h = 500 - food_size = 10 - delay = 100 - - offsets = { - "up": (0, 20), - "down": (0, -20), - "left": (-20, 0), - "right": (20, 0) - } - - def reset(): - global snake, snake_dir, food_position, pen - snake = [[0, 0], [0, 20], [0, 40], [0, 60], [0, 80]] - snake_dir = "up" - food_position = get_random_food_position() - food.goto(food_position) - move_snake() - - def move_snake(): - global snake_dir - - new_head = snake[-1].copy() - new_head[0] = snake[-1][0] + offsets[snake_dir][0] - new_head[1] = snake[-1][1] + offsets[snake_dir][1] - - - if new_head in snake[:-1]: - reset() - else: - snake.append(new_head) - - - if not food_collision(): - snake.pop(0) - - - if snake[-1][0] > w / 2: - snake[-1][0] -= w - elif snake[-1][0] < - w / 2: - snake[-1][0] += w - elif snake[-1][1] > h / 2: - snake[-1][1] -= h - elif snake[-1][1] < -h / 2: - snake[-1][1] += h - - - pen.clearstamps() - - - for segment in snake: - pen.goto(segment[0], segment[1]) - pen.stamp() - - - screen.update() - - turtle.ontimer(move_snake, delay) - - def food_collision(): - global food_position - if get_distance(snake[-1], food_position) < 20: - food_position = get_random_food_position() - food.goto(food_position) - return True - return False - - def get_random_food_position(): - x = random.randint(- w / 2 + food_size, w / 2 - food_size) - y = random.randint(- h / 2 + food_size, h / 2 - food_size) - return (x, y) - - def get_distance(pos1, pos2): - x1, y1 = pos1 - x2, y2 = pos2 - distance = ((y2 - y1) ** 2 + (x2 - x1) ** 2) ** 0.5 - return distance - def go_up(): - global snake_dir - if snake_dir != "down": - snake_dir = "up" - - def go_right(): - global snake_dir - if snake_dir != "left": - snake_dir = "right" - - def go_down(): - global snake_dir - if snake_dir!= "up": - snake_dir = "down" - - def go_left(): - global snake_dir - if snake_dir != "right": - snake_dir = "left" - - - screen = turtle.Screen() - screen.setup(w, h) - screen.title("Snake") - screen.bgcolor("blue") - screen.setup(500, 500) - screen.tracer(0) - - - pen = turtle.Turtle("square") - pen.penup() + w = 500 + h = 500 + food_size = 10 + delay = 100 + + offsets = { + "up": (0, 20), + "down": (0, -20), + "left": (-20, 0), + "right": (20, 0) + } + + def reset(): + global snake, snake_dir, food_position, pen + snake = [[0, 0], [0, 20], [0, 40], [0, 60], [0, 80]] + snake_dir = "up" + food_position = get_random_food_position() + food.goto(food_position) + move_snake() + + def move_snake(): + global snake_dir + + new_head = snake[-1].copy() + new_head[0] = snake[-1][0] + offsets[snake_dir][0] + new_head[1] = snake[-1][1] + offsets[snake_dir][1] + + if new_head in snake[:-1]: + reset() + else: + snake.append(new_head) + if not food_collision(): + snake.pop(0) - food = turtle.Turtle() - food.shape("square") - food.color("yellow") - food.shapesize(food_size / 20) - food.penup() + if snake[-1][0] > w / 2: + snake[-1][0] -= w + elif snake[-1][0] < - w / 2: + snake[-1][0] += w + elif snake[-1][1] > h / 2: + snake[-1][1] -= h + elif snake[-1][1] < -h / 2: + snake[-1][1] += h + pen.clearstamps() - screen.listen() - screen.onkey(go_up, "Up") - screen.onkey(go_right, "Right") - screen.onkey(go_down, "Down") - screen.onkey(go_left, "Left") + for segment in snake: + pen.goto(segment[0], segment[1]) + pen.stamp() + screen.update() - reset() - turtle.done() + turtle.ontimer(move_snake, delay) + def food_collision(): + global food_position + if get_distance(snake[-1], food_position) < 20: + food_position = get_random_food_position() + food.goto(food_position) + return True + return False + + def get_random_food_position(): + x = random.randint(- w / 2 + food_size, w / 2 - food_size) + y = random.randint(- h / 2 + food_size, h / 2 - food_size) + return (x, y) + + def get_distance(pos1, pos2): + x1, y1 = pos1 + x2, y2 = pos2 + distance = ((y2 - y1) ** 2 + (x2 - x1) ** 2) ** 0.5 + return distance + + def go_up(): + global snake_dir + if snake_dir != "down": + snake_dir = "up" - #any command doesn't match nova talk this line + def go_right(): + global snake_dir + if snake_dir != "left": + snake_dir = "right" + + def go_down(): + global snake_dir + if snake_dir != "up": + snake_dir = "down" + + def go_left(): + global snake_dir + if snake_dir != "right": + snake_dir = "left" + + screen = turtle.Screen() + screen.setup(w, h) + screen.title("Snake") + screen.bgcolor("blue") + screen.setup(500, 500) + screen.tracer(0) + + pen = turtle.Turtle("square") + pen.penup() + + food = turtle.Turtle() + food.shape("square") + food.color("yellow") + food.shapesize(food_size / 20) + food.penup() + + screen.listen() + screen.onkey(go_up, "Up") + screen.onkey(go_right, "Right") + screen.onkey(go_down, "Down") + screen.onkey(go_left, "Left") + + reset() + turtle.done() + + # any command doesn't match nova talk this line else: talk('Please say the command again.') - + + while True: - run_alexa() \ No newline at end of file + run_alexa()