def random(request): random_title=random2.choice(util.list_entries()) entry_detail=markdown2.markdown(util.get_entry(random_title)) context={ 'entry_title':random_title, 'entry_detail':entry_detail } return render(request,'encyclopedia/detail.html',context)
def play(): user = input("What's your choice? 'r' for rock, 'p' for paper, 's' for scissors\n") computer = random2.choice(['r', 'p', 's']) if user == computer: return 'YOU WON!' return 'YOU LOST!'
def synonymIfExists(sentence): for (word, t) in tag(sentence): if paraphraseable(t): syns = synonyms(word, t) if syns: if len(syns) > 1: List1 = list(syns) yield random.choice(List1) continue yield word
def kot(): sho = [ 'Вашего кота зовут Манник, вы вроде мне про него рассказывали ./Он вообще такой дебил, что написать про это можно целую книгу . Живёт он с вами, просит вечно жрачку, на что конечно-же уходит много денег .', 'Могу сказать про него в переносном смысле - мужик который нихрена не делает и сидиит днями за телевизором . Чем-то похож на вас.', 'Серая мышь, которая бесит своим поведением', 'Довольно милая, но агрессивная зараза.' ] ka = random2.choice(sho) speak(ka) return listen
def mem(): sho = [ 'Мне коробочку сока, пожалуйста - Какой вам сок? - Любой… - Я годится? - Ну давайте ягодицу. Каких только названий не придумают эти рекламщики', 'Любой парень будет у ваших ног. Главное с первого удара попасть ему в челюсть. Ха Ха Ха', 'Есть люди, кто достает мобильник из кармана, чтоб посмотреть время, потом убирает его и вспоминает, что забыл время посмотреть', 'Надпись на калитке: "Стучите громче, глухая собака!"', 'Не буду навязываться, захочет напишет" подумали оба', 'В последнее время я стал намного ближе к природе. Совсем озверел' ] ka = random2.choice(sho) speak(ka) return listen
def roulette(): sho = [ 'У нас мертвяк! Может быть на том свете тебе повезёт больше. Покойся с миром.', 'Вот это смельчак! Ты выжил после нажатия на курок! Больше так не рискуй. Подумай о маме и папе!', 'Вы выжили! Но постарайтесь не рисковать!', 'На этот раз тебе повезло, но будет ли так в следующий раз?', 'Удача на твоей стороне! А давай еще?', 'Задумайся, стоит ли попробовать еще, если ДА то зачем тебе это?', ] ka = random2.choice(sho) speak("Вы зарядили 1 патрон и раскрутили барабан: " + ka) speak("Я вас слушаю") return listen
def take_input(self): h = input('What is your name?') g = int( input( 'Enter the number of character you want to be in your baby name.' )) f = input("Enter your spouse name.") #print("Among one thousand names, Possible baby names are") first_let = h[0] let_anywhere = f[0] #print(h,g) # Characters to generate the random word rest_char = [ 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z' ] i = 0 while i < 10001: i = i + 1 #List to carry the character my_char = [] my_char_len = len(my_char) # List to carry the word after joining them word = [] while my_char_len < g: my_char_len = my_char_len + 1 pull = random2.choice(rest_char) my_char.append(pull) #print(my_char) # use of join built-in function to join the character in the my_char list and make a single word name = ("".join(my_char)) word.append(name) #print('No name with letter',first_let) # print(word) # To create the file if not created and to apend the data in the file f1 = open("names.txt", 'a+') if name[0] == first_let: f1.write("\n" + name) f1.close() else: pass # to read the data from the file f2 = open("names.txt", 'r') content = f2.read() print(len(content)) #return content print('These are the possible baby names.', content.upper()) os.remove("names.txt")
def get_text_messages(message): print(message.text) if message.text == "Привет": bot.send_message(message.chat.id, "Привет, друг!", reply_markup=markup) if (message.text == "Расскажи анекдот" or message.text == "/joke"): with open('jokes.txt', 'r') as nnn: joke = [line.strip() for line in nnn] nnn.close() ran = random2.choice(joke) bot.send_message(message.chat.id, ran, reply_markup=markup) if (message.text.startswith('/roll') or message.text.startswith(b"\xF0\x9F\x8E\xB2".decode("utf-8"))): message.text.strip(" ") print(message.text) bot.send_message(message.chat.id, random2.randint(1, 100), reply_markup=markup) if message.text == b"\xF0\x9F\x92\xB0".decode("utf-8"): bot.send_message(message.chat.id, 'money money money', reply_markup=markup) if message.text.lower() == "спасибо": bot.send_message(message.chat.id, 'Всегда пожалуйста!', reply_markup=markup) if message.text == b"\xF0\x9F\x98\x82".decode("utf-8"): bot.send_message(message.chat.id, 'Рад, что тебе весело!', reply_markup=markup) if message.text.lower() == 'скажи погоду': owm = pyowm.OWM('6d00d1d4e704068d70191bad2673e0cc', language="ru") place = 'Островец' weather_advice = "" observation = owm.weather_at_place(place) w = observation.get_weather() veter = (str(round(w.get_wind()["speed"]))) vlazhnost = (str(round(w.get_humidity()))) temperatura = (str(round(w.get_temperature('celsius')["temp"]))) if float(temperatura) <= 15: weather_advice += "советую одеться потеплее " if float(veter) >= 10: weather_advice += "сегодня ветренно " bot.send_message(message.chat.id, 'В городе' + ' ' + place + ' ' + 'сейчас' + ' ' + w.get_detailed_status() + ', ветер' + ' ' + veter + ' ' + 'метров в секунду' + ', влажность' + ' ' + vlazhnost + ' ' + 'процентов' + ', температура' + ' ' + temperatura + ' ' + 'градусов по Цельсию,' + weather_advice, reply_markup=markup_2)
def get_boxes_for_images(self, anno_dir): width = self.image_width height = self.image_height category_list = self.filters boxes_dataset = [] # for i, name in enumerate(category_list): # self.add_class("cloud", i+1, name) df = pd.DataFrame(columns=["image_id","EncodedPixels","CategoryId","Width","Height"]) train_dataset = CloudDataset(df[:training_set_size]) for i, row in df.iterrows(): self.add_image("cloud", image_id=row.name, path='../understanding_cloud_organization/train_images/'+str(row.image_id), labels=row['CategoryId'], annotations=row['EncodedPixels'], height=row['Height'], width=row['Width']) for i in range(50): image_id = random.choice(train_dataset.image_ids) # print(train_dataset.image_reference(image_id)) # image = resize_image(self.image_info[image_id]['path']) info = self.image_info[image_id] mask = np.zeros((IMAGE_SIZE, IMAGE_SIZE, len(info['annotations'])), dtype=np.uint8) # labels = [] for m, (annotation, label) in enumerate(zip(info['annotations'], info['labels'])): sub_mask = np.full(info['height']*info['width'], 0, dtype=np.uint8) annotation = [int(x) for x in annotation.split(' ')] for i, start_pixel in enumerate(annotation[::2]): sub_mask[start_pixel: start_pixel+annotation[2*i+1]] = 1 sub_mask = sub_mask.reshape((info['height'], info['width']), order='F') sub_mask = cv2.resize(sub_mask, (IMAGE_SIZE, IMAGE_SIZE), interpolation=cv2.INTER_NEAREST) mask[:, :, m] = sub_mask # labels.append(int(label)+1) print(mask) boxes_frame.append(mask) boxes_dataset.append(boxes_frame) # return mask, np.array(labels) # convert mask to bounding box # return mask, np.array(labels) return boxes_dataset
async def граната(ctx): emb = discord.Embed(title=random2.choice(granata), colour=discord.Color.green()) emb.set_author(name=Bot.user.name, icon_url=Bot.user.avatar_url) emb.set_footer(text=ctx.author.name, icon_url=ctx.author.avatar_url) emb.set_image( url= "https://i.siteapi.org/l9q5FHblgIocYbq5v2U1RYYY9NM=/fit-in/330x/top/filters:format(webp)/0cef3703d382b3d.s.siteapi.org/img/11a73eb3a7cd0bb6c616222d9a01548fd71aa7ad.jpg" ) emb.set_thumbnail( url="http://images.aif.ru/007/382/5810c4d77d79c3d828377e1fd3e5f9ed.jpg" ) await ctx.send(embed=emb)
def sendEmail(request, email, npm, nama): letters_and_digits = string.ascii_letters + string.digits r_result = ''.join((random.choice(letters_and_digits) for i in range(10))) message = 'Hi, ' + nama message1 = '\r\nKami dari KPU mengundang anda untuk melakukan pemilu silahkan klik link berikut : ' link = 'https://docs.djangoproject.com ' user = '******' + npm message2 = '\r\n Password : '******'Pemilihan umum ketua HMJ dan PRESMA 2021', password, '*****@*****.**', [email], fail_silently=False) sendpass = {'showpass': r_result} return render(request, 'form/result.php', sendpass)
async def снайпер(ctx): emb = discord.Embed(title=random2.choice(snaiper), colour=discord.Color.green()) emb.set_author(name=Bot.user.name, icon_url=Bot.user.avatar_url) emb.set_footer(text=ctx.author.name, icon_url=ctx.author.avatar_url) emb.set_image( url= "https://go4.imgsmail.ru/imgpreview?key=50592ce8b177f788&mb=imgdb_preview_766" ) emb.set_thumbnail( url= "http://files.storeland.ru/web/upload/sitefiles/6/513/512843/flag-snajper-chernyje-berety.jpg" ) await ctx.send(embed=emb)
def start_game(quotes): quote = choice(quotes) remaining_guesses = 4 print("Here's a quote: ") print(quote["text"]) print(quote["author"]) guess = "" while guess.lower() != quote["author"].lower() and remaining_guesses > 0: guess = input( f"Who said this quote? Guesses remaining: {remaining_guesses}\n") if guess.lower() == quote["author"].lower(): print("You got it right!") break remaining_guesses -= 1 if remaining_guesses == 3: res = requests.get(f"{base_url}{quote['bio-link']}") soup = BeautifulSoup(res.text, "html.parser") birth_date = soup.find(class_="author-born-date").get_text() birth_place = soup.find(class_="author-born-location").get_text() print( f"Heres's a hint: The author was born on {birth_date} {birth_place}" ) elif remaining_guesses == 2: print( f"Here's a hint: The author's first name starts with: {quote['author'][0]}" ) elif remaining_guesses == 1: last_initial = quote["author"].split(" ")[1][0] print( f"Here's a hint: The author's last name starts with: {last_initial}" ) else: print( f"Sorry you ran out of guesses. The answer was {quote['author']}" ) again = "" while again.lower() not in ('y', 'yes', 'n', 'no'): again = input("Would you like to play again (y/n)?") if again.lower() in ('yes', 'y'): return start_game(quotes) else: print("Ok, goodbye!")
def find_match(source_word): """Finds the best match for a source word""" min_dist = 100 # min_dist = len(source_word) * 2 optimal_words = [] target_file = open('common_words.txt', 'r') # FIXME: Runtime of this is O(n^2). Can we improve this? for line in target_file: target_word = line.rstrip() if distance(source_word, target_word) == min_dist: # Add this word to the list optimal_words.append(target_word) if distance(source_word, target_word) < min_dist: min_dist = distance(source_word, target_word) # re-initialize the list, with only this word as a possible correction optimal_words = [target_word] return choice(optimal_words)
def randomstrnum(a): letters_and_digits = string.ascii_letters + string.digits r_result = ''.join((random.choice(letters_and_digits) for i in range(a))) print(r_result)
def random_string_generator(size=10, chars=string.ascii_lowercase + string.digits): return ''.join(random2.choice(chars) for _ in range(size))
import mouseinfo import time import platform import random2 import pyautogui liste = [ 'i', 'v', 'm', 'l', 'b', 'd', "d", "e", "f", "w", "u", "y", "s", "a", "z", "x", "2", "3", "j", "r", "p" ] print(random2.choice(liste)) time.sleep(5) a = 1 while a == 1: pyautogui.typewrite(random2.choice(liste)) pyautogui.typewrite(random2.choice(liste)) pyautogui.typewrite(random2.choice(liste)) time.sleep(0.2) pyautogui.press('enter')
current_list.append(lab[i, j + 1]) not_visited.append(lab[i, j + 1]) if i + 1 <= 9: if lab[i + 1, j] not in list_of_visited: #2 current_list.append(lab[i + 1, j]) not_visited.append(lab[i + 1, j]) if i - 1 >= 0: if lab[i - 1, j] not in list_of_visited: #3 current_list.append(lab[i - 1, j]) not_visited.append(lab[i - 1, j]) if j - 1 >= 0: if lab[i, j - 1] not in list_of_visited: #4 current_list.append(lab[i, j - 1]) not_visited.append(lab[i, j - 1]) if len(current_list) != 0: next_step = random2.choice( current_list) #случайный элемент непустой последовательности. itemindex = find_index(lab, n, m, next_step) print('item_index of next step', itemindex) print('next_step', next_step) print('list_of_visited', list_of_visited) print('current_list', current_list) current_point = next_step print('going to next step') else: if len(not_visited) != 0: next_step = random2.choice(not_visited) print('lab', lab) print('final print of visited', list_of_visited) #from website
def random_page(request): random_selected = random2.choice(util.list_entries()) return HttpResponseRedirect( reverse("wiki", kwargs={"title": random_selected}))
def rolling(): diceim=ImageTk.PhotoImage(Image.open(random2.choice(dice))) imlabel.configure(image=diceim) imlabel.image = diceim
def coin(): sho = ['Вы кинули монетку, выпал ОРЕЛ', 'Вы кинули монетку, выпала РЕШКА'] ka = random2.choice(sho) speak(ka) return listen
letters = [ 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z' ] numbers = ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9'] symbols = ['!', '#', '$', '%', '&', '(', ')', '*', '+'] print("Welcome to the PyPassword Generator!") nr_letters = int(input("How many letters would you like in your password?\n")) nr_symbols = int(input(f"How many symbols would you like?\n")) nr_numbers = int(input(f"How many numbers would you like?\n")) password = "" for i in range(1, nr_letters + 1): random = random2.choice(letters) password = password + random for i in range(1, nr_symbols + 1): random_sym = random2.choice(symbols) password = password + random_sym for i in range(1, nr_numbers + 1): random_num = random2.choice(numbers) password = password + random_num print(f"Your password is {password}")
def goodbay(): sho = ['До свидания', 'Всего хорошего', 'Жду нашей встречи'] ka = random2.choice(sho) speak(ka) exit(0)
#set genome for random selection fjun_head = fjun.readline() for line in fjun: line = line.split("\n")[0] ln = line.split("\t") if ln[0] not in Genome: Genome[ln[0]] = [] Genome[ln[0]] += [int(ln[1])] Chrom.append(ln[0]) #randomly select breaks for set times, calculate for enrichment ratio for i in range(dataset): print(i) Randden[str(i)] = [] for ji in range(rtime): rchrom = random.choice(Chrom) rpos = random.choice(Genome[rchrom]) randomden = enrich_den_window(rchrom, rpos) Randden[str(i)] += [randomden] #run one-sample T-test sampmean = statistics.mean(sampdens) randmean = statistics.mean(Randden[str(i)]) testres = stats.ttest_1samp(sampdens, randmean) pvalue = testres[1] oRandden.append([str(i), str(randmean), str(pvalue)]) #output #breakpoints enrichment ratio ohead = "Chrom\tPos\tEnrichmentRatio" o.write(ohead + "\n")
import random2 import tkinter from PIL import ImageTk, Image root = tkinter.Tk() root.geometry('300x300') root.title('Rolling Dice') heading = tkinter.Label(root,text="The dice rolls to...", fg="red", bg="pink", font = "Arial 16 bold italic") heading.pack() dice = ['die1.png','die2.png','die3.png','die4.png','die5.png','die6.png'] diceim=ImageTk.PhotoImage(Image.open(random2.choice(dice))) imlabel = tkinter.Label(root, image=diceim) imlabel.image = diceim imlabel.pack(expand=True) def rolling(): diceim=ImageTk.PhotoImage(Image.open(random2.choice(dice))) imlabel.configure(image=diceim) imlabel.image = diceim button = tkinter.Button(root, text="Roll the Dice", command=rolling) button.pack(expand=True) root.mainloop()
def gener_num(leng): l_num = '' for i in range(0, leng): l_num += random2.choice(strings) l_num += '\r\n' return l_num
UPCASE_CHARACTERS = [ 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'M', 'N', 'O', 'p', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z' ] SYMBOLS = [ '@', '#', '$', '%', '=', ':', '?', '.', '/', '|', '~', '>', '*', '(', ')', '<' ] # combines all the character arrays above to form one array COMBINED_LIST = DIGITS + UPCASE_CHARACTERS + LOCASE_CHARACTERS + SYMBOLS # randomly select at least one character from each character set above rand_digit = random2.choice(DIGITS) rand_upper = random2.choice(UPCASE_CHARACTERS) rand_lower = random2.choice(LOCASE_CHARACTERS) rand_symbol = random2.choice(SYMBOLS) # combine the character randomly selected above # at this stage, the password contains only 4 characters but # we want a 12-character password temp_pass = rand_digit + rand_upper + rand_lower + rand_symbol # now that we are sure we have at least one character from each # set of characters, we fill the rest of # the password length by selecting randomly from the combined # list of character above. for x in range(MAX_LEN - 4): temp_pass = temp_pass + random2.choice(COMBINED_LIST)
import random2 hola = ["Hola", "Buenas", "Saludos", "Hola!", "Buenas!", "Saludos!"] elhola = random2.choice(hola) hoy = [ "hoy", "esta vez", "esta ocasion", "esta oportunidad", ] elhoy = random2.choice(hoy) tetraemos = ["te traemos", "te compartimos"] eltetraemos = random2.choice(tetraemos) una = ["una pelicula", "una cinta", "un filme"] eluna = random2.choice(una) denombre = ["de nombre", "que se llama", "llamada"] eldenombre = random2.choice(denombre) nombre = input("El nombre: ") dicen = ["dicen", "comentan", "he escuchado", "he oido"] eldicen = random2.choice(dicen) buenisima = [ "que esta buenisima", "que esta re buena", "que esta genial", "que esta bien buena" ]