def plot(request): column = request.POST.get('column') start = request.POST.get('dateField1') ends = request.POST.get('dateField2') if ends is not None: end = str(datetime.strptime(ends, "%Y-%m-%d") + timedelta(days=1)) #had to do this so it would show all the #data including the end parameter if column is None: column = '2' if start is None: start = "2016-03-01" if ends is None: now = datetime.now() end = datetime.__str__(now) context = { 'start': start, 'end': end, 'plotting': plotGraph(column, start, end), 'table': plotTable(column, start, end) } context.update(csrf(request)) return render(request, 'Plot_Page.html', context)
def index(request): now = datetime.now() end = datetime.__str__(now) plotName = 'plot' context = {'endDate': end, 'plots': plotName} context.update(csrf(request)) return render_to_response('Main_Page.html', context)
def __str__(self): formatted = datetime.__str__(self) delta = self.__leapseconds(self.tzinfo,None) if delta is not None: formatted += '%+03d' % self.tzinfo.leapseconds(self) formatted += ' MJD %.6f' % self.MJD() if self.tzname() is not None: formatted += ' %s' % self.tzname() return formatted
def __str__(self): formatted = datetime.__str__(self) delta = self.__leapseconds(self.tzinfo, None) if delta is not None: formatted += '%+03d' % self.tzinfo.leapseconds(self) formatted += ' MJD %.6f' % self.MJD() if self.tzname() is not None: formatted += ' %s' % self.tzname() return formatted
def find_age(dob): dob = dob.split() # dob split = [DAY, MONTH, YEAR] month = { 'JAN': 1, 'FEB': 2, 'MAR': 3, 'APR': 4, 'MAY': 5, 'JUN': 6, 'JUL': 7, 'AUG': 8, 'SEP': 9, 'OCT': 10, 'NOV': 11, 'DEC': 12 } today = date.today() today = datetime.__str__(datetime.today()) today = today[0:10] # today format = 'YYYY-MM-DD' year = int(today[0:4]) - int(dob[2]) month = int(today[5:7]) - int(month[str(dob[1])]) day = int(today[8:10]) - int(dob[0]) if month > 0: return year elif month < 0: return year - 1 else: if day >= 0: return year else: return year - 1
def __str__(self): return "'{{{}}}'".format(', '.join('{}'.format(datetime.__str__()) for datetime in self._datetimeList))
def getURLs(self, urls): for url in urls: for u in url: time = datetime.__str__(u.timestamp()) url = u.name() yield ([time, url])
import functions from minspacings import Firefly import settings if __name__ == "__main__": firefly = Firefly(n=settings.N, nff=settings.Nff, alpha=settings.Alpha, gamma=settings.Gamma, t=settings.T) firefly.response_model(k=settings.k * np.pi, angle_increment=settings.Nphi, peakWidth=np.deg2rad(settings.Pwdes), sidelobeHeight=settings.Slhdes) time = datetime.__str__(datetime.today()) # time = time[:-10] time = time[0:10] + "_" + time[11:13] + "." + time[14:16] filepath = "data/" + time + "/" if not os.path.exists(filepath): os.makedirs(filepath) shutil.copyfile("./settings.py", filepath + "settings.txt") for ensemble in range(0, settings.ENSEMBLES): firefly.generate_initials() print "ensemble: %s" % ensemble x, R, fitness, GS, avgGS, avgF, avgP = firefly.run() if ensemble == 0: with open(filepath + "x.csv", "w") as xfile:
def __init__(self): self.screen = pygame.display.set_mode((800, 600)) self.green = pygame.image.load("assets/green.png").convert_alpha() pygame.font.init() self.score = 0 self.font = pygame.font.SysFont("Arial", 25) self.blue = pygame.image.load("assets/blue.png").convert_alpha() self.red = pygame.image.load("assets/red.png").convert_alpha() self.red_1 = pygame.image.load("assets/red_1.png").convert_alpha() self.playerRight = pygame.image.load("assets/right.png").convert_alpha() self.playerRight_1 = pygame.image.load("assets/right_1.png").convert_alpha() self.playerLeft = pygame.image.load("assets/left.png").convert_alpha() self.playerLeft_1 = pygame.image.load("assets/left_1.png").convert_alpha() self.spring = pygame.image.load("assets/spring.png").convert_alpha() self.spring_1 = pygame.image.load("assets/spring_1.png").convert_alpha() self.direction = 0 self.playerx = 400 self.playery = 400 self.platforms = [[400, 500, 0, 0]] self.springs = [] self.cameray = 0 self.jump = 0 self.gravity = 0 self.xmovement = 0 #DISS CODE #code for the potentiometer: #instantiating the potentiometer as part of the doodle jump object self.i2c = busio.I2C(board.SCL, board.SDA) #Creating theADC object using i2C bus self.ads = ADS.ADS1015(self.i2c) #the game now has instatiated the potentiometer self.pot0 = Potentiometer(0,self.ads) #Code for the Microbits: self.ubit1 = microbit.Microbit(adapter_addr='DC:A6:32:7C:35:D2', device_addr='D6:CA:A9:57:F7:72') self.ubit2 = microbit.Microbit(adapter_addr='DC:A6:32:7C:35:D2', device_addr='E4:E1:14:75:E1:E5') try: self.ubit1.connect() print("Microbit 1 Connected!") except: print("Could not connect to Microbit 1") print("Attempting to connect to Microbit 2...") try: self.ubit2.connect() print("Microbit 2 Connected!") except: print("Could not connect to Microbit 2") #creating both microbit devices #self.mbit1 = accel(1) #self.mbit2 = accel(2) #self.quitstatus = False #this is the quit status of the game #opening the necesary file time = datetime.__str__(datetime.today()) self.name = "Accelerometer data: " + time bad = ' ' good = '_' self.name = self.name.replace(bad,good) bad = ':' good = '_' self.name = self.name.replace(bad,good) file = open(self.name, "w") file.close() self.writeto = []
def __str__(self): return self.title + ', ' + self.location + ', ' \ + datetime.__str__(self.start_time) + ', ' \ + datetime.__str__(self.end_time)
from bluezero import microbit from time import sleep from time import time from datetime import datetime #Setting up the microbits ubit1 = microbit.Microbit(adapter_addr='DC:A6:32:7C:35:D2', device_addr='D6:CA:A9:57:F7:72') ubit2 = microbit.Microbit(adapter_addr='DC:A6:32:7C:35:D2', device_addr='E4:E1:14:75:E1:E5') #Setting up any files or variables loop = True time = datetime.__str__(datetime.today()) name = "Accelerometer data: " + time bad = ' ' good = '_' name = name.replace(bad, good) bad = ':' good = '_' name = name.replace(bad, good) file = open(name, "w") file.close() #Connecting to microbits print("Attempting to connect to Microbit 1...") try: ubit1.connect() print("Connected!") except: print("Could not connect to Microbit 1")
def __str__(self): return datetime.__str__(self.replace(tzinfo=None))
def __str__(self): return datetime.__str__(self.replace(tzinfo=None))