def main(): # Вступление start() # Работа на ферме work() # Последнее задание (подсчет веса и завершение программы) end()
def enter(self): self.loading() functions.start() print "What would you do?" print "1. Stay away from it. Run as fast as you can." print "2. Get inside and discover..." choice1 = raw_input("> ") if "2" in choice1: return 'tardis' else: return "death"
def action(command): # Default region REGION = 'us-west-2' try: with shelve.open('regions', writeback=True) as db: REGION = db['default'] print("Previous 'moveto' detected. Region: {}\n".format(REGION)) except Exception: print("No previous 'moveto' detected. Region: {}\n".format(REGION)) if command == "start": functions.start(REGION) elif command == "stop": functions.delete(REGION) elif command == "moveto": functions.moveto(REGION)
def test_start(): args = argparse.Namespace() args.env = "mockenv.json" args.instance = "testjcs" args.start = "start" args.email = False args.verbose = False _, response = start(args) assert requests.codes.ACCEPTED == response.status_code
def easy_next(T, D, H, M, S, A, B): global temp_i, timed_i, timeh_i, timem_i, gasa_i, gasb_i temp_int = T timed_int = D timeh_int = H timem_int = M times_int = S time_s = timed_int * (86400) + timeh_int * (3600) + timem_int * ( 60) + times_int print(time_s) gasa_int = A gasb_int = B temp_i = str(T) timed_i = str(D) timeh_i = str(H) timem_i = str(M) gasa_i = str(A) gasb_i = str(B) frame_n = Frame(root) frame_n.grid() # Creating a restart if statement if Gas A + Gas B doesnt = 100% # Creating a restart if statement if Gas A + Gas B doesnt = 100% templ = Label(frame_n, text="Temperature for Test") timel = Label(frame_n, text="Time for Test") gasl = Label(frame_n, text="Gas % s") tempinput = "Steady State Temp = " + temp_i + "\N{DEGREE SIGN}C" timeinput = timed_i + " Days " + timeh_i +\ "H " + timem_i + "min" gasainput = "Gas A = " + gasa_i + "%, Gas B = " + gasb_i + "%" f_templabel = Label(frame_n, text=tempinput) f_timelabel = Label(frame_n, text=timeinput) f_gaslabel = Label(frame_n, text=gasainput) frame_s.destroy() templ.grid(row=1, column=1) timel.grid(row=1, column=2) gasl.grid(row=1, column=3) f_templabel.grid(row=2, column=1) f_timelabel.grid(row=2, column=2) f_gaslabel.grid(row=2, column=3) # Creating Start button button_start = Button( frame_n, text="Start", command=lambda: start(temp_int, time_s, gasa_int, atm)) button_start.grid(row=3, column=4) button_edit = Button(frame_n, text="edit", command=lambda: edit()) button_edit.grid(row=4, column=4)
def scan_finger(): f.start() #function to start the sensor f.start_led() #function to start the led current_id = int(f.current_count(), 16) f.start_enroll(f.current_count( )) #function for starting enrollment for storing the finger-print of user Lprint.lcd_byte(0x01, LCD_CMD) #clear lcd Lprint.lcd_string("put your finger", LCD_LINE_1) #syntax for printing on lcd screen print 'press finger 1' while (f.ispressfinger() == 2): #check if finger is pressed or not time.sleep(0.1) if (f.capture_image() == 1): #capture image if (f.enroll1() == 1 ): #check if successfull enrollment of user has done or not print 'remove finger 1' Lprint.lcd_string("remove your finger", LCD_LINE_1) #syntax for printing on lcd screen while (f.ispressfinger() == 1): #check if finger is pressed or not time.sleep(0.1) print 'press finger 2' Lprint.lcd_string("put your finger again", LCD_LINE_1) #syntax for printing on lcd screen while (f.ispressfinger() == 2): #check if finger is pressed or not time.sleep(0.1) if (f.capture_image() == 1): #capture image if ( f.enroll2() == 1 ): #check if successfull enrollment of user has done or not print 'remove finger 2' Lprint.lcd_string( "remove your finger", LCD_LINE_1) #syntax for printing on lcd screen while (f.ispressfinger() == 1 ): #check if finger is pressed or not time.sleep(0.1) print 'press finger 3' Lprint.lcd_string( "put your finger again", LCD_LINE_1) #syntax for printing on lcd screen while (f.ispressfinger() == 2 ): #check if finger is pressed or not time.sleep(0.1) if (f.capture_image() == 1): #capture image if ( f.enroll3() == 1 ): #check if successfull enrollment of user has done or not print 'remove finger 3' Lprint.lcd_string( "successfull scanned:)", LCD_LINE_1) #syntax for printing on lcd screen time.sleep(1) Lprint.lcd_string( "enter your mobile no", LCD_LINE_1) #syntax for printing on lcd screen val1 = '' val = '' number = 0 while (val != 'D'): Lprint.lcd_string( "then Press D ", LCD_LINE_2 ) #syntax for printing on lcd screen val = keyboard.keyboard_value( ) #calling the function to read the key pressed by the user on keypad time.sleep(0.05) val1 = val1 + val if (val == 'C'): #cancel command val1 = '' val = '' number = 0 Lprint.lcd_string( "enter again", LCD_LINE_1 ) #syntax for printing on lcd screen time.sleep(1.5) elif (val != 'D'): #varify end of mobile numer temp = int(val) number = number * 10 + temp #store the number in variable Lprint.lcd_string(val1, LCD_LINE_1) Lprint.lcd_byte(0x01, LCD_CMD) Lprint.lcd_string( "thank you..", LCD_LINE_1) #syntax for printing on lcd screen time.sleep(1) Lprint.lcd_byte(0x01, LCD_CMD) Lprint.lcd_string( "check sms in", LCD_LINE_1) #syntax for printing on lcd screen Lprint.lcd_string( "your mobile", LCD_LINE_2) #syntax for printing on lcd screen time.sleep(2) ''' send req. to server.... send Current_id and number ''' url = "http://malgadi.co.in/touch-n-pay/register_new_user.php?fid=" + str( current_id) + "&mobileno=" + str(number) content = urllib2.urlopen( url).read() #syntax to update the web server if (content == '1'): Lprint.lcd_string( "registered successfully", LCD_LINE_1 ) #syntax for printing on lcd screen time.sleep(2) '''if internet is not working then delete id if not upload on portal''' while (f.ispressfinger() == 1 ): #syntax if finger id pressed or not time.sleep(0.1) for i in range( 0, 10): # to store 10 digit mobile number val = keyboard.keyboard_value() val1 = '' for i in range(0, 10): val = keyboard.keyboard_value() val1 = val1 + val #to store number in string Lprint.lcd_string(val1, LCD_LINE_2) num.insert(i, val) print num[i] Lprint.lcd_string( "check message in", LCD_LINE_1) #syntax for printing on lcd screen Lprint.lcd_string( "your phone", LCD_LINE_2) #syntax for printing on lcd screen time.sleep(2) userid = f.current_count( ) # userid is in 'hex' format, covert it in decimal and minus 1 print 'user id is:' print userid ''' send req. to server.... send userid and num array ''' while (f.ispressfinger() == 1): time.sleep(0.1) else: Lprint.lcd_string( "enroll 3 fail", LCD_LINE_1 ) #syntax for printing error message on lcd screen Lprint.lcd_string( "please try again", LCD_LINE_2) #syntax for printing on lcd screen time.sleep(2) else: Lprint.lcd_string( "3rd capture fail", LCD_LINE_1 ) #syntax for printing error message on lcd screen Lprint.lcd_string( "please try again", LCD_LINE_2) #syntax for printing on lcd screen time.sleep(2) else: Lprint.lcd_string( "enroll 2 fail", LCD_LINE_1 ) #syntax for printing error message on lcd screen Lprint.lcd_string( "please try again", LCD_LINE_2) #syntax for printing on lcd screen time.sleep(2) else: Lprint.lcd_string( "2nd capture fail", LCD_LINE_1 ) #syntax for printing error message on lcd screen Lprint.lcd_string( "please try again", LCD_LINE_2 ) #syntax for printing error message on lcd screen time.sleep(2) else: Lprint.lcd_string( "enroll 1 fail", LCD_LINE_1) #syntax for printing error message on lcd screen Lprint.lcd_string( "please try again", LCD_LINE_2) #syntax for printing error message on lcd screen time.sleep(2) else: Lprint.lcd_string( "1st capture fail", LCD_LINE_1) #syntax for printing error message on lcd screen Lprint.lcd_string( "please try again", LCD_LINE_2) #syntax for printing error message on lcd screen time.sleep(2) f.stop_led()
self.geometry("1024x550") container = ttk.Frame(self) container.pack(side="top", fill="both", expand=True) container.grid_rowconfigure(0, weight=1) container.grid_columnconfigure(0, weight=1) self.frames = {} lst_table = fn.getMenuItems() lst_table.append('empty') for tbl in lst_table: frame = Panel(container, self, tbl) self.frames[tbl] = frame frame.grid(row=0, column=0, sticky="nsew") self.show_frame("dashboard") def show_frame(self, cont): frame = self.frames[cont] self.title(fn.winTitle(cont.title())) frame.tkraise() if __name__ == '__main__': if fn.checkAuth(): fn.startMain() else: fn.start(Login)
from settings import DIRECTORY from functions import start if __name__ == '__main__': start(DIRECTORY)
import functions as check check.start(summary=True, verbose=True, memory=True) add = 2 + 2 check.point("ADDITION") mult = 2 * 2 check.point("MULTIPLICATION") exp = 2**2 check.point("EXPONENTIAL") check.stop()
class StartScreen(Screen): text = functions.start() yo = (f"Du bist {str(functions.year)} Jahre alt.") def update(self): self.text_field.text = functions.update() self.year_field.text = (f"Du bist {str(functions.year)} Jahre alt.")
#The main file for the python game. import classes import functions as fn #fn.battle('Imp') fn.charachter_select() fn.start()
from functions import start print('Started battery tracker.') print('note: each hour you will recieve toast notification or') print('if the battery is less than or equal to 15% also if battery is greater than 90%.') SECS = 60 * 60 # 1 hour start(SECS)
from selenium import webdriver import Locators as locator import functions as function # navigate to website #driver = webdriver.Chrome('./chromedriver') # change as per your location print('Select from the following') print('1. Log in') print('2. Create User') print('3. Create Vendor') print('4. Delete Vendor') print('5. Associate Client and Vendor') print('') switch = int(input()) function.start() if switch == 1: #log_in function.login() elif switch == 2: #create user if function.login(): elif switch == 3: # create vendor if function.login(): function.CreateVendor() elif switch == 4: # delete Vendor
def next(): global temp_i, timed_i, timeh_i, timem_i, gasa_i, gasb_i temp_int = int(e_temp.get()) timed_int = int(e_timed.get()) timeh_int = int(e_timeh.get()) timem_int = int(e_timem.get()) time_s = timed_int * (86400) + timeh_int * (3600) + timem_int * (60) print(time_s) gasa_int = int(e_gas1.get()) gasb_int = int(e_gas2.get()) temp_i = (e_temp.get()) timed_i = e_timed.get() timeh_i = e_timeh.get() timem_i = e_timem.get() gasa_i = (e_gas1.get()) gasb_i = (e_gas2.get()) frame_n = Frame(root) frame_n.grid() # Creating a restart if statement if Gas A + Gas B doesnt = 100% if (gasa_int + gasb_int) != 100: frame_s.destroy() error_g = Label( frame_n, text="Gas A & Gas B do not add up to 100%, please restart program") error_g.pack() restart = Button(frame_n, text="Restart", command=restart_program) restart.pack() # Creating a restart if statement if Gas A + Gas B doesnt = 100% if temp_int < atm or temp_int > 120: frame_s.destroy() atm1 = str(atm) error_t = Label(frame_n, text="Temperature is not within " + atm1 + "\N{DEGREE SIGN}C to 120\N{DEGREE SIGN}C") error_t.pack() restart = Button(frame_n, text="Restart", command=restart_program) restart.pack() templ = Label(frame_n, text="Temperature for Test") timel = Label(frame_n, text="Time for Test") gasl = Label(frame_n, text="Gas % s") tempinput = "Steady State Temp = " + temp_i + "\N{DEGREE SIGN}C" timeinput = timed_i + " Days " + timeh_i +\ "H " + timem_i + "min" gasainput = "Gas A = " + gasa_i + "%, Gas B = " + gasb_i + "%" f_templabel = Label(frame_n, text=tempinput) f_timelabel = Label(frame_n, text=timeinput) f_gaslabel = Label(frame_n, text=gasainput) frame_s.destroy() templ.grid(row=1, column=1) timel.grid(row=1, column=2) gasl.grid(row=1, column=3) f_templabel.grid(row=2, column=1) f_timelabel.grid(row=2, column=2) f_gaslabel.grid(row=2, column=3) # Creating Start button button_start = Button( frame_n, text="Start", command=lambda: start(temp_int, time_s, gasa_int, atm)) button_start.grid(row=3, column=4) # Creating a Clear Button button_clear = Button(frame_n, text="Clear", command=restart_program) button_clear.grid(row=1, column=4)
def connectsig(self, button): functions.start() setlable()