# Copyright (C) 2020 Fintic, finticofficial@gmail.com # # This file is part of Fintic project, developed by Neythen Treloar and Justin Dunn # # stockTicker can not be copied and/or distributed without the express # permission of Fintic import random import sys, select import os import threading from PIL import Image, ImageDraw, ImageFont, ImageSequence Image.init() import pytz import time import csv import requests import pexpect from rgbmatrix import RGBMatrix, RGBMatrixOptions, graphics from rgbmatrix.graphics import * from multiprocessing import Process import traceback import json from datetime import datetime import matplotlib.colors as mcolors ny_zone = pytz.timezone('America/New_York') gmt_zone = pytz.timezone('Etc/GMT') gmt1_zone = pytz.timezone('Etc/GMT+1') gmt2_zone = pytz.timezone('Etc/GMT+2') gmt3_zone = pytz.timezone('Etc/GMT+3') gmt4_zone = pytz.timezone('Etc/GMT+4') gmt5_zone = pytz.timezone('Etc/GMT+5') gmt6_zone = pytz.timezone('Etc/GMT+6') gmt7_zone = pytz.timezone('Etc/GMT+7') gmt8_zone = pytz.timezone('Etc/GMT+8') gmt9_zone = pytz.timezone('Etc/GMT+9') gmt10_zone = pytz.timezone('Etc/GMT+10') gmt11_zone = pytz.timezone('Etc/GMT+11') gmt12_zone = pytz.timezone('Etc/GMT+12') gmtn1_zone = pytz.timezone('Etc/GMT-1') gmtn2_zone = pytz.timezone('Etc/GMT-2') gmtn3_zone = pytz.timezone('Etc/GMT-3') gmtn4_zone = pytz.timezone('Etc/GMT-4') gmtn5_zone = pytz.timezone('Etc/GMT-5') gmtn6_zone = pytz.timezone('Etc/GMT-6') gmtn7_zone = pytz.timezone('Etc/GMT-7') gmtn8_zone = pytz.timezone('Etc/GMT-8') gmtn9_zone = pytz.timezone('Etc/GMT-9') gmtn10_zone = pytz.timezone('Etc/GMT-10') gmtn11_zone = pytz.timezone('Etc/GMT-11') gmtn12_zone = pytz.timezone('Etc/GMT-12') gmtn13_zone = pytz.timezone('Etc/GMT-13') gmtn14_zone = pytz.timezone('Etc/GMT-14') ny_timezone = pytz.timezone('America/New_York') london_timezone = pytz.timezone('Europe/London') tokyo_timezone = pytz.timezone('Asia/Tokyo') au_timezone = pytz.timezone('Australia/Sydney') dubai_timezone = pytz.timezone('Asia/Dubai') la_timezone = pytz.timezone('America/Los_Angeles') cn_timezone = pytz.timezone('Asia/Shanghai') paris_timezone = pytz.timezone('Europe/Paris') in_timezone = pytz.timezone('Asia/Kolkata') auck_timezone = pytz.timezone('Pacific/Auckland') bang_timezone = pytz.timezone('Asia/Bangkok') istan_timezone = pytz.timezone('Europe/Istanbul') place_featuretitle = False def getInput(Block=False): if Block or select.select([sys.stdin], [], [], 0) == ([sys.stdin], [], []): msg = sys.stdin.read(1) #sys.stdin.flush() else: msg = '' return msg class StockTicker(): def __init__(self): #Define global resources self.symbols = [] self.delay = 0.02 self.greenORred = (255, 255, 255) #self.blank = Image.open('logos/blank.png') self.blank = Image.new('RGB', (10, 32)) self.running = True settings = json.load(open('csv/general_settings.json', 'r')) self.brightness = settings['brightness']*10 # Configuration for the matrix options = RGBMatrixOptions() options.rows = 32 options.cols = 64 options.chain_length = 2 options.parallel = 1 options.hardware_mapping = 'adafruit-hat' # If you have an Adafruit HAT: 'adafruit-hat' options.gpio_slowdown = 2 options.brightness = self.brightness self.matrix = RGBMatrix(options = options) #sys.exit() self.points = True # display crypto change in points or percent self.functions = {'Stocks': self.getStockImage, 'Crypto': self.getCryptoImage, 'Forex': self.getForexImage, 'Sector Performance': self.getSectorImage, 'Inspirational Quotes': self.getQuotesImage, 'Daily Forecast':self.getDailyWeatherImage, 'Current Weather': self.getTodayWeatherImage, 'Jokes': self.getJokesImage, 'Place (Reddit)': self.getPlaceImage, 'Sports (Team Stats)':lambda : self.getLeagueTableImage('premier_league'), 'Sports (Past Games)': lambda:self.getLeagueImage('NBA', 'past'), 'Sports (Upcoming Games)': lambda : self.getLeagueImage('NHL', 'future'), 'Sports (Live Games)': lambda: self.getLeagueImage('NBA', 'live'), 'News':self.getNewsImage, 'Custom Messages': self.getUserMessages, 'Commodities': self.getCommoditiesImage, 'Indices': self.getIndicesImage, 'Movies': self.getMoviesImage, 'Gainers, Losers, Active': self.getMarketImage, 'Economic Calendar': self.getEconomicImage, 'IPO Calendar':self.getIpoImage, 'IPO Calendar Prof':self.getIpoProfessional, 'Economic Calendar Prof': self.getEconomicProfessional, 'Gainers, Losers, Active Prof': self.getMarketProfessional, 'Stocks Prof': self.getStockProfessional, 'Crypto Prof': self.getCryptoProfessional, 'Forex Prof': self.getForexProfessional, 'Jokes Prof': self.getJokesProfessional, 'Place (Reddit) Prof': self.getPlaceImageProfessional, 'Inspirational Quotes Prof': self.getQuotesProfessional, 'Current Weather Prof': self.getTodayWeatherProfessional, 'News Prof':self.getNewsProfessional, 'Commodities Prof':self.getCommoditiesProfessional, 'Indices Prof': self.getIndicesProfessional, 'Sector Performance Prof': self.getSectorProfessional, 'Daily Forecast Prof':self.getDailyWeatherProfessional, 'Sports (Team Stats) Prof':lambda : self.getLeagueTableProfessional('NHL'), 'Sports (Upcoming Games) Prof': lambda : self.getLeagueProfessional('NHL', 'future'), 'Sports (Past Games) Prof': lambda : self.getLeagueProfessional('NBA', 'past'), 'Custom Messages Prof': self.getUserMessagesProfessional, 'Custom Images Prof': self.getUserImagesProfessional, 'Movies Prof': self.getMoviesProfessional, 'Sports (Live Games) Prof': lambda : self.getLeagueProfessional('NBA', 'live')} self.JSONs = {'Stocks': 'csv/stocks_settings.json', 'Crypto': 'csv/crypto_settings.json', 'Forex': 'csv/forex_settings.json', 'Jokes': 'csv/jokes_settings.json', 'Inspirational Quotes': 'csv/quotes_settings.json', 'Daily Forecast':'csv/daily_weather.json', 'Current Weather': 'csv/current_weather.json', 'Commodities':'csv/commodities_settings.json', 'Indices': 'csv/indices_settings.json', 'Sports (Team Stats)': 'csv/league_tables.json', 'Sports (Past Games)': 'csv/past_games.json', 'IPO Calendar': 'csv/ipo_settings.json', 'Economic Calendar': 'csv/economic_settings.json', 'Sports (Upcoming Games)': 'csv/upcoming_games.json', 'Sports (Live Games)': 'csv/live_games.json', 'Movies': 'csv/movie_settings.json', 'Clock 1': 'csv/clock1_settings.json', 'Clock 2': 'csv/clock2_settings.json', 'World Clock': 'csv/worldclock_settings.json', 'News':'csv/news_settings.json', 'Custom Images': 'csv/image_settings.json', 'Custom GIFs': 'csv/GIF_settings.json', 'Custom Messages': 'csv/message_settings.json', 'Clock 1 Prof': 'csv/clock1_settings.json', 'World Clock Prof': 'csv/worldclock_settings.json', 'Stocks Prof': 'csv/stocks_settings.json', 'Crypto Prof': 'csv/crypto_settings.json', 'Forex Prof': 'csv/forex_settings.json', 'Jokes Prof': 'csv/jokes_settings.json', 'Clock 2 Prof': 'csv/clock2_settings.json', 'Current Weather Prof': 'csv/current_weather.json', 'News Prof':'csv/news_settings.json', 'Commodities Prof':'csv/commodities_settings.json', 'Indices Prof': 'csv/indices_settings.json', 'Daily Forecast Prof':'csv/daily_weather.json', 'Sports (Team Stats) Prof': 'csv/league_tables.json', 'Sports (Upcoming Games) Prof': 'csv/upcoming_games.json', 'Sports (Past Games) Prof': 'csv/past_games.json', 'Custom Messages Prof': 'csv/message_settings.json', 'Custom Images Prof': 'csv/image_settings.json', 'Movies Prof': 'csv/movie_settings.json', 'Sports (Live Games) Prof': 'csv/live_games.json', 'IPO Calendar Prof': 'csv/ipo_settings.json', 'Economic Calendar Prof': 'csv/economic_settings.json', 'Gainers, Losers, Active':'csv/market_settings.json', 'Gainers, Losers, Active Prof':'csv/market_settings.json', 'Sector Performance':'csv/sector_settings.json', 'Sector Performance Prof':'csv/sector_settings.json', 'Place (Reddit)':'csv/place_settings.json', 'Place (Reddit) Prof':'csv/place_settings.json'} def openImage(self, image_file): image = Image.open(image_file) image = image.convert('RGB') # Make image fit our screen. #image.thumbnail((self.matrix.width, self.matrix.height), Image.ANTIALIAS) #image = image.convert('RGB') return image def degreesToCompass(self, deg): dirs = ['N', 'NE', 'E', 'SE', 'S', 'SW', 'W', 'NW'] return dirs[int((deg+22.5)//45)%8] def setImage(self, image, offset_x = 0, offset_y = 0, unsafe=True, min_x = 0, max_x = 128, min_y = 0, max_y = 32): if (image.mode != "RGB"): image = image.convert('RGB') if unsafe: #In unsafe mode we directly acceshow to send commands to running python processs the underlying PIL image array #in cython, which is considered unsafe pointer accecss, #however it's super fast and seems to work fine #https://groups.google.com/forum/#!topic/cython-users/Dc1ft5W6KM4 img_width, img_height = image.size self.matrix.SetPixelsPillow(offset_x, offset_y, img_width, img_height, image) else: # First implementation of a SetImage(). OPTIMIZE_ME: A more native # implementation that directly reads the buffer and calls the underlying # C functions can certainly be faster. img_width, img_height = image.size pixels = image.load() for y in range(max(0, -offset_y), min(img_height, self.matrix.height - offset_y)): for x in range(max(0, -offset_x), min(img_width, self.matrix.width - offset_x)): if min_x <= x + offset_x <= max_x and min_y <= y + offset_y <= max_y: (r, g, b) = pixels[x, y] self.matrix.SetPixel(x + offset_x, y + offset_y, r*self.brightness, g*self.brightness, b*self.brightness) def scrollImage(self, image, offset_x = 0, offset_y = 0, frame_skip = 10, gif = False, pause_frames = 0, place = False): img_width, img_height = image.size kill = False if place: value = -85 else: value = 0 while offset_x > -(img_width+1): if offset_x == value: while pause_frames > 0: if pause_frames%frame_skip == 0: self.incrementGIF(image) pause_frames -=1 if gif: self.double_buffer.SetImage(image.convert('RGB'), offset_x, offset_y) else: self.double_buffer.SetImage(image, offset_x, offset_y) for y in range(self.matrix.height): self.matrix.SetPixel(offset_x + img_width +1 , y , 0,0,0) self.matrix.SetPixel(offset_x + img_width , y , 0,0,0) self.double_buffer = self.matrix.SwapOnVSync(self.double_buffer) time.sleep(self.delay) kill = self.checkKilled() if kill: break if kill: break # for animation in gifs if offset_x%frame_skip == 0: self.incrementGIF(image) #image = image.convert('RGB') offset_x -= 1 #self.setImage(image.convert('RGB'), offset_x = offset_x, offset_y = offset_y) if gif: self.double_buffer.SetImage(image.convert('RGB'), offset_x, offset_y) else: self.double_buffer.SetImage(image, offset_x, offset_y) buff = 0 # remove the ppixels behind the image, to stop trailing self.double_buffer = self.matrix.SwapOnVSync(self.double_buffer) for y in range(self.matrix.height): self.matrix.SetPixel(offset_x + img_width +1 , y , 0,0,0) self.matrix.SetPixel(offset_x + img_width , y , 0,0,0) time.sleep(self.delay) kill = self.checkKilled() if kill: break return kill def scrollImageY(self, image, direction = 1, offset_x = 0, offset_y = 0, frame_skip = 10, gif = False): kill = False while offset_y != 0: # for animation in gifs if offset_y%frame_skip == 0: self.incrementGIF(image) offset_y += direction if gif: self.double_buffer.SetImage(image.convert('RGB'), offset_x, offset_y) else: self.double_buffer.SetImage(image, offset_x, offset_y) self.double_buffer = self.matrix.SwapOnVSync(self.double_buffer) time.sleep(self.delay) kill = self.checkKilled() if kill: break return kill def scrollImageTransition(self, image_files, offset_x = 0, offset_y = 0, stocks = True): # use two image files and switch between them with a seemless transition current_img = 1 image1 = self.openImage(image_files[0]).convert('RGB') image2 = self.openImage(image_files[1]).convert('RGB') double_buffer = self.matrix.CreateFrameCanvas() kill = False while True: if current_img == 1: if stocks: update_process = Process(target = self.getFullStockImage, args = (1,)) update_process.start() image1 = self.openImage(image_files[0]).convert('RGB') image2 = self.openImage(image_files[1]).convert('RGB') elif current_img == 2: if stocks: update_process = Process(target = self.getFullStockImage, args = (2,)) update_process.start() image1 = self.openImage(image_files[1]).convert('RGB') image2 = self.openImage(image_files[0]).convert('RGB') img_width, img_height = image1.size while offset_x > -img_width: offset_x -= 1 double_buffer.SetImage(image1, offset_x, offset_y) if offset_x + img_width < self.matrix.width: # if the image is ending double_buffer.SetImage(image2, offset_x, offset_y) double_buffer = self.matrix.SwapOnVSync(double_buffer) time.sleep(self.delay) kill = self.checkKilled() if kill: break if stocks: image1.close() image2.close() if kill: break if stocks: update_process.join() update_process.terminate() if current_img == 1: current_img = 2 elif current_img == 2: current_img = 1 offset_x = 0 update_process.join() update_process.terminate() def scrollImageStacked(self, image, offset_x = 0, offset_y = 0): img_width, img_height = image.size while offset_x > -img_width - 128: offset_x -= 1 self.setImage(image, offset_x = offset_x+128, offset_y = offset_y) self.setImage(image, offset_x = offset_x, offset_y = offset_y+20) kill = self.checkKilled() time.sleep(self.delay) return kill def updateMultiple(self, options): for option in options: if option not in ['Custom GIFs', 'Custom Images', 'Custom Messages', 'Place (Reddit)', 'Clock 1', 'Clock 2', 'World Clock', 'Clock 1 Prof', 'Clock 2 Prof', 'World Clock Prof']: # these images are already saved in user uploads, dodnt need to update them img = self.functions[option]() img.save('./display_images/'+ option+ '.ppm') def incrementGIF(self, image): try: image.seek(self.frame) except EOFError: self.frame = 0 image.seek(self.frame) self.frame +=1 def checkKilled(self): kill = False try: msg = getInput() if msg == 'K': self.resetMatrix() kill = True self.process_msg(msg) except KeyboardInterrupt: sys.stdout.flush() pass return kill def set_delay(self,speed): if speed.lower() == 'slow': self.delay = 0.03 elif speed.lower() == 'medium': self.delay = 0.02 elif speed.lower() == 'fast': self.delay = 0.01 return self.delay def scrollFunctionsAnimated(self, options, animation = 'down', repeat = True): # scrolls trhough all functions with animation. Updates functions and remakes images when each function not being dispplayed self.updateMultiple([options[0]]) kill = False i = 0 # keep track of which image we are displaying self.double_buffer = self.matrix.CreateFrameCanvas() while True: update_process = Process(target = self.updateMultiple, args = ([options[(i+1) % len(options)]],)) update_process.start() f = open(self.JSONs[options[(i) % len(options)]]) settings = json.load(f) f.close() if options[i % len(options)] == 'Clock 1': kill=self.showClock1() elif options[i % len(options)] == 'Clock 2': kill=self.showClock2() elif options[i % len(options)] == 'World Clock': kill=self.showWorldclock() else: self.set_delay(settings['speed']) animation = settings['animation'].lower() if options[i % len(options)] == 'Custom Images': images = self.getUserImages() elif options[i % len(options)] == 'Place (Reddit)': images = self.getPlaceImage() elif options[i % len(options)] == 'Custom GIFs': images = self.getUserGIFs() elif options[i % len(options)] == 'Custom Messages': images = self.getUserMessages() else: #these options just have a single ppm image image = self.openImage('./display_images/' + options[i % len(options)] +'.ppm') images = [image] for image in images: img_width, img_height = image.size offset_x = 0 if animation == 'continuous': offset_x = 128 elif animation in ['up', 'down']: offset_x = max(0, 128-img_width) offset_y = 0 #first scroll image in from bottom frame_skip = int((1/15)/self.delay) #controls how fast gifs run self.frame = 0 pause_frames = int(0.5/self.delay) if animation == 'up': offset_y = 33 direction = -1 kill = self.scrollImageY(image, direction = direction, offset_x = offset_x, offset_y = offset_y, frame_skip = frame_skip, gif = options[i % len(options)] == 'Custom GIFs') elif animation == 'down': direction = 1 offset_y = -33 kill = self.scrollImageY(image, direction = direction, offset_x = offset_x, offset_y = offset_y, frame_skip = frame_skip, gif = options[i % len(options)] == 'Custom GIFs') if kill: break offset_y = 0 if animation in ['up', 'down']: while pause_frames > 0: if pause_frames%frame_skip == 0: self.incrementGIF(image) pause_frames -=1 if options[i % len(options)] != 'Custom GIFs': self.double_buffer.SetImage(image, offset_x, offset_y) else: self.double_buffer.SetImage(image.convert('RGB'), offset_x, offset_y) self.double_buffer = self.matrix.SwapOnVSync(self.double_buffer) time.sleep(self.delay) kill = self.checkKilled() if kill: break if kill: break if kill: break try: pause = float(settings['pause']) except: pause = 0 pause_frames = int(float(pause)/self.delay) if options[i % len(options)] == 'Place (Reddit)': global place_featuretitle place_true = place_featuretitle else: place_true = False kill = self.scrollImage(image, offset_x = offset_x, offset_y = offset_y, frame_skip = frame_skip, gif = options[i % len(options)] == 'Custom GIFs', pause_frames = pause_frames, place = place_true) if kill: break if kill:break if not repeat: break update_process.join() update_process.terminate() i+=1 def scrollProfessionalAnimated(self, options, animation = 'on'): # scrolls trhough all functions with animation. Updates functions and remakes images when each function not being dispplayed top = options[0] bottom = options[1] # self.updateMultiple([top[0], bottom[0]]) # ADDING THIS FOR COLORS FOR CLOCK FEATURES time_colors1 = { "White": (255,255,255), "Red": (255, 0,0), "Green": (0,255,0), "Dark Green": (0, 100,0), "Blue": (0,0,255), "Purple": (145,0,255), "Pink": (255,0,255), "Yellow": (255,255,0), "Orange": (255,130,0), "Gold": (255,190,0), "Gray": (100,100,100), "Cyan": (0,255,255)} day_colors = {"day":(255, 191, 0), "night":(0, 71,171)} def isDaytime1(time,twelvehours): if twelvehours: hour = int(time.split(':')[0]) daytime_start_hour = 6 daytime_end_hour = 6 am_pm = time[-2:] if (6 <= hour <= 11 and am_pm == 'AM') or (1 <= hour <= 6 and am_pm == 'PM') or (hour == 12 and am_pm == 'PM'): return True else: return False else: hour = time.split(':')[0] daytime_start_hour = 6 daytime_end_hour = 18 if daytime_start_hour <= int(hour) <= daytime_end_hour: return True else: return False kill = False i1 = 0 # keep track of which image we are displaying i2 = 0 # keep track of which image we are displaying self.double_buffer = self.matrix.CreateFrameCanvas() update_process = Process(target = self.updateMultiple, args = ([top[(i1+1) % len(top)]+ ' Prof', bottom[(i2+1) % len(bottom)]+ ' Prof' ],)) update_process.start() self.updateMultiple([top[i1 % len(top)]+ ' Prof', bottom[i2 % len(bottom)]+ ' Prof' ]) settings1 = json.load(open(self.JSONs[top[i1 % len(top)]])) settings2 = json.load(open(self.JSONs[bottom[i2 % len(bottom)] ])) if 'Clock' not in top[i1 % len(top)]: image1 = self.openImage('./display_images/' + top[i1 % len(top)] +' Prof.ppm') image1 = image1.convert('RGB') elif top[i1 % len(top)] == 'Clock 2': #CLOCK 2 SETTINGS image1 = Image.new('RGB', (128, 16)) draw = ImageDraw.Draw(image1) the_time = time.time() font = ImageFont.load("fonts/6x12.pil") font2 = ImageFont.load("fonts/5x8.pil") try: with open('clock_screensaver.json', 'r') as f: clock2_settings = json.load(f)['clock2'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) clock2_settings = clock_settings['clock2'] time_color1 = clock2_settings['time_color'] date_color1 = clock2_settings['date_color'] timezone1 = clock2_settings['timezone'] display_s = clock2_settings['display_seconds'] display_p = clock2_settings['display_pm'] twelvehours = clock2_settings['12hour'] if twelvehours: if display_p and display_s: time_format = "%I:%M:%S %p" elif display_p and not display_s: time_format = "%I:%M %p" elif not display_p and display_s: time_format = "%I:%M:%S" else: time_format = "%I:%M" else: if display_p and display_s: time_format = "%H:%M:%S %p" elif display_p and not display_s: time_format = "%H:%M %p" elif not display_p and display_s: time_format = "%H:%M:%S" else: time_format = "%H:%M" if '+' in timezone1: timezone1 = timezone1.replace('+', '-') elif '-' in timezone1: timezone1 = timezone1.replace('-', '+') elif top[i1 % len(top)] == 'Clock 1': #CLOCK 1 SETTINGS image1 = Image.new('RGB', (128, 16)) draw = ImageDraw.Draw(image1) the_time = time.time() font_1 = ImageFont.load("fonts/7x14B.pil") font_2 = ImageFont.load("fonts/5x8.pil") try: with open('clock_screensaver.json', 'r') as f: clock1_settings = json.load(f)['clock1'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) clock1_settings = clock_settings['clock1'] time_color2 = clock1_settings['time_color'] date_color2 = clock1_settings['date_color'] weekday_color2 = clock1_settings['weekday_color'] timezone2 = clock1_settings['timezone'] display_s = clock1_settings['display_seconds'] display_p = clock1_settings['display_pm'] twelvehours = clock1_settings['12hour'] if twelvehours: if display_p and display_s: time_format = "%I:%M:%S %p" elif display_p and not display_s: time_format = "%I:%M %p" elif not display_p and display_s: time_format = "%I:%M:%S" else: time_format = "%I:%M" else: if display_p and display_s: time_format = "%H:%M:%S %p" elif display_p and not display_s: time_format = "%H:%M %p" elif not display_p and display_s: time_format = "%H:%M:%S" else: time_format = "%H:%M" if '+' in timezone2: timezone2 = timezone2.replace('+', '-') elif '-' in timezone2: timezone2 = timezone2.replace('-', '+') elif top[i1 % len(top)] == 'World Clock': #WORLD CLOCK SETTINGS image1 = Image.new('RGB', (128, 16)) draw = ImageDraw.Draw(image1) the_time = time.time() next_six_seconds = 0 counter = 0 font_1 = ImageFont.load("fonts/4x6.pil") try: with open('clock_screensaver.json', 'r') as f: world_settings = json.load(f)['world_clock'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) world_settings = clock_settings['world_clock'] worldcity_color = world_settings['city_color'] display_s = world_settings['display_seconds'] display_p = world_settings['display_pm'] twelvehours = world_settings['12hour'] if twelvehours: if display_p and display_s: time_format = "%I:%M:%S %p" world_offset = 82 elif display_p and not display_s: time_format = "%I:%M %p" world_offset = 94 elif not display_p and display_s: time_format = "%I:%M:%S %p" world_offset = 94 else: time_format = "%I:%M %p" world_offset = 106 else: if display_p and display_s: time_format = "%H:%M:%S %p" world_offset = 82 elif display_p and not display_s: time_format = "%H:%M %p" world_offset = 94 elif not display_p and display_s: time_format = "%H:%M:%S %p" world_offset = 94 else: time_format = "%H:%M %p" world_offset = 106 #BOTTOM SETTINGS if 'Clock' not in bottom[i2 % len(bottom)]: image2 = self.openImage('./display_images/' + bottom[i2 % len(bottom)] +' Prof.ppm') image2 = image2.convert('RGB') elif bottom[i2 % len(bottom)] == 'Clock 2': #CLOCK 2 SETTINGS image2 = Image.new('RGB', (128, 16)) draw2 = ImageDraw.Draw(image2) the_time2 = time.time() font_b = ImageFont.load("fonts/6x12.pil") font2_b = ImageFont.load("fonts/5x8.pil") try: with open('clock_screensaver.json', 'r') as f: clock2_settings = json.load(f)['clock2'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) clock2_settings = clock_settings['clock2'] time_color1_b = clock2_settings['time_color'] date_color1_b = clock2_settings['date_color'] timezone1_b = clock2_settings['timezone'] display_s_b = clock2_settings['display_seconds'] display_p_b = clock2_settings['display_pm'] twelvehours_b = clock2_settings['12hour'] if twelvehours_b: if display_p_b and display_s_b: time_format_b = "%I:%M:%S %p" elif display_p_b and not display_s_b: time_format_b = "%I:%M %p" elif not display_p_b and display_s_b: time_format_b = "%I:%M:%S" else: time_format_b = "%I:%M" else: if display_p_b and display_s_b: time_format_b = "%H:%M:%S %p" elif display_p_b and not display_s_b: time_format_b = "%H:%M %p" elif not display_p_b and display_s_b: time_format_b = "%H:%M:%S" else: time_format_b = "%H:%M" if '+' in timezone1_b: timezone1_b = timezone1_b.replace('+', '-') elif '-' in timezone1_b: timezone1_b = timezone1_b.replace('-', '+') elif bottom[i2 % len(bottom)] == 'Clock 1': #CLOCK 1 SETTINGS image2 = Image.new('RGB', (128, 16)) draw2 = ImageDraw.Draw(image2) the_time2 = time.time() font_1_b = ImageFont.load("fonts/7x14B.pil") font_2_b = ImageFont.load("fonts/5x8.pil") try: with open('clock_screensaver.json', 'r') as f: clock1_settings = json.load(f)['clock1'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) clock1_settings = clock_settings['clock1'] time_color2_b = clock1_settings['time_color'] date_color2_b = clock1_settings['date_color'] weekday_color2_b = clock1_settings['weekday_color'] timezone2_b = clock1_settings['timezone'] display_s_b = clock1_settings['display_seconds'] display_p_b = clock1_settings['display_pm'] twelvehours_b = clock1_settings['12hour'] if twelvehours_b: if display_p_b and display_s_b: time_format_b = "%I:%M:%S %p" elif display_p_b and not display_s_b: time_format_b = "%I:%M %p" elif not display_p_b and display_s_b: time_format_b = "%I:%M:%S" else: time_format_b = "%I:%M" else: if display_p_b and display_s_b: time_format_b = "%H:%M:%S %p" elif display_p_b and not display_s_b: time_format_b = "%H:%M %p" elif not display_p_b and display_s_b: time_format_b = "%H:%M:%S" else: time_format_b = "%H:%M" if '+' in timezone2_b: timezone2_b = timezone2_b.replace('+', '-') elif '-' in timezone2_b: timezone2_b = timezone2_b.replace('-', '+') elif bottom[i2 % len(bottom)] == 'World Clock': #WORLD CLOCK SETTINGS image2 = Image.new('RGB', (128, 16)) draw2 = ImageDraw.Draw(image2) the_time2 = time.time() next_six_seconds2 = 0 counter2 = 0 font_12 = ImageFont.load("fonts/4x6.pil") try: with open('clock_screensaver.json', 'r') as f: world_settings = json.load(f)['world_clock'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) world_settings = clock_settings['world_clock'] worldcity_color2 = world_settings['city_color'] display_s_b = world_settings['display_seconds'] display_p_b = world_settings['display_pm'] twelvehours_b = world_settings['12hour'] if twelvehours_b: if display_p_b and display_s_b: time_format_b = "%I:%M:%S %p" world_offset_b = 82 elif display_p_b and not display_s_b: time_format_b = "%I:%M %p" world_offset_b = 94 elif not display_p_b and display_s_b: time_format_b = "%I:%M:%S %p" world_offset_b = 94 else: time_format_b = "%I:%M %p" world_offset_b = 106 else: if display_p_b and display_s_b: time_format_b = "%H:%M:%S %p" world_offset_b = 82 elif display_p_b and not display_s_b: time_format_b = "%H:%M %p" world_offset_b = 94 elif not display_p_b and display_s_b: time_format_b = "%H:%M:%S %p" world_offset_b = 94 else: time_format_b = "%H:%M %p" world_offset_b = 106 delay_t1 = self.set_delay(settings1['speed']) try: animation1 = settings1['animation'].lower() except: animation1 = settings1['transition'].lower() try: delay_t2 = self.set_delay(settings2['speed2']) except: delay_t2 = self.set_delay(settings2['speed']) try: animation2 = settings2['animation'].lower() except: animation2 = settings2['transition'].lower() try: pause1 = int(settings1['pause']) except: pause1 = 0 try: pause2 = int(settings2['pause']) except: pause2 = 0 if animation1 == 'continuous': offset_y1 = 0 offset_x1 = 128 else: offset_y1 = -16 offset_x1 = 0 if animation2 == 'continuous': offset_y2 = 16 offset_x2 = 128 else: offset_y2 = 32 offset_x2 = 0 # frame_skip = int((1/15)/self.delay) #controls how fast gifs run # self.frame = 0 img_width1, img_height1 = image1.size img_width2, img_height2 = image2.size kill = False update_t1 = time.time() update_t2 = time.time() while True: # UPDATE IMAGE 1 WHEN PRIOR FEATURE DONE DISPLAYING if offset_x1 < -(img_width1+1): i1 += 1 settings1 = json.load(open(self.JSONs[top[i1 % len(top)]])) delay_t1 = self.set_delay(settings1['speed']) try: animation1 = settings1['animation'].lower() except: animation1 = settings1['transition'].lower() try: pause1 = int(settings1['pause']) except: pause1 = 0 if animation1 == 'continuous': offset_y1 = 0 offset_x1 = 128 else: offset_y1 = -16 offset_x1 = 0 update_process.join() update_process.terminate() update_process = Process(target = self.updateMultiple, args = ([top[(i1+1) % len(top)]+ ' Prof'],)) update_process.start() if 'Clock' not in top[i1 % len(top)]: image1 = self.openImage('./display_images/' + top[i1 % len(top)] +' Prof.ppm') image1 = image1.convert('RGB') elif top[i1 % len(top)] == 'Clock 2': #CLOCK2 SETTINGS image1 = Image.new('RGB', (128, 16)) draw = ImageDraw.Draw(image1) the_time = time.time() font = ImageFont.load("fonts/6x12.pil") font2 = ImageFont.load("fonts/5x8.pil") try: with open('clock_screensaver.json', 'r') as f: clock2_settings = json.load(f)['clock2'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) clock2_settings = clock_settings['clock2'] time_color1 = clock2_settings['time_color'] date_color1 = clock2_settings['date_color'] timezone1 = clock2_settings['timezone'] display_s = clock2_settings['display_seconds'] display_p = clock2_settings['display_pm'] twelvehours = clock2_settings['12hour'] if twelvehours: if display_p and display_s: time_format = "%I:%M:%S %p" elif display_p and not display_s: time_format = "%I:%M %p" elif not display_p and display_s: time_format = "%I:%M:%S" else: time_format = "%I:%M" else: if display_p and display_s: time_format = "%H:%M:%S %p" elif display_p and not display_s: time_format = "%H:%M %p" elif not display_p and display_s: time_format = "%H:%M:%S" else: time_format = "%H:%M" if '+' in timezone1: timezone1 = timezone1.replace('+', '-') elif '-' in timezone1: timezone1 = timezone1.replace('-', '+') elif top[i1 % len(top)] == 'Clock 1': #CLOCK 1 SETTINGS image1 = Image.new('RGB', (128, 16)) draw = ImageDraw.Draw(image1) the_time = time.time() font_1 = ImageFont.load("fonts/7x14B.pil") font_2 = ImageFont.load("fonts/5x8.pil") try: with open('clock_screensaver.json', 'r') as f: clock1_settings = json.load(f)['clock1'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) clock1_settings = clock_settings['clock1'] time_color2 = clock1_settings['time_color'] date_color2 = clock1_settings['date_color'] weekday_color2 = clock1_settings['weekday_color'] timezone2 = clock1_settings['timezone'] display_s = clock1_settings['display_seconds'] display_p = clock1_settings['display_pm'] twelvehours = clock1_settings['12hour'] if twelvehours: if display_p and display_s: time_format = "%I:%M:%S %p" elif display_p and not display_s: time_format = "%I:%M %p" elif not display_p and display_s: time_format = "%I:%M:%S" else: time_format = "%I:%M" else: if display_p and display_s: time_format = "%H:%M:%S %p" elif display_p and not display_s: time_format = "%H:%M %p" elif not display_p and display_s: time_format = "%H:%M:%S" else: time_format = "%H:%M" if '+' in timezone2: timezone2 = timezone2.replace('+', '-') elif '-' in timezone2: timezone2 = timezone2.replace('-', '+') elif top[i1 % len(top)] == 'World Clock': #WORLD CLOCK SETTINGS image1 = Image.new('RGB', (128, 16)) draw = ImageDraw.Draw(image1) the_time = time.time() next_six_seconds = 0 counter = 0 font_1 = ImageFont.load("fonts/4x6.pil") try: with open('clock_screensaver.json', 'r') as f: world_settings = json.load(f)['world_clock'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) world_settings = clock_settings['world_clock'] worldcity_color = world_settings['city_color'] display_s = world_settings['display_seconds'] display_p = world_settings['display_pm'] twelvehours = world_settings['12hour'] if twelvehours: if display_p and display_s: time_format = "%I:%M:%S %p" world_offset = 82 elif display_p and not display_s: time_format = "%I:%M %p" world_offset = 94 elif not display_p and display_s: time_format = "%I:%M:%S %p" world_offset = 94 else: time_format = "%I:%M %p" world_offset = 106 else: if display_p and display_s: time_format = "%H:%M:%S %p" world_offset = 82 elif display_p and not display_s: time_format = "%H:%M %p" world_offset = 94 elif not display_p and display_s: time_format = "%H:%M:%S %p" world_offset = 94 else: time_format = "%H:%M %p" world_offset = 106 img_width1, img_height1 = image1.size # UPDATE IMAGE 2 WHEN PRIOR FEATURE DONE DISPLAYING if offset_x2 < -(img_width2+1): i2 += 1 settings2 = json.load(open(self.JSONs[bottom[(i2) % len(bottom)]])) try: delay_t2 = self.set_delay(settings2['speed2']) except: delay_t2 = self.set_delay(settings2['speed']) try: animation2 = settings2['animation'].lower() except: animation2 = settings2['transition'].lower() try: pause2 = int(settings2['pause']) except: pause2 = 0 if animation2 == 'continuous': offset_y2 = 16 offset_x2 = 128 else: offset_y2 = 32 offset_x2 = 0 update_process.join() update_process.terminate() update_process = Process(target = self.updateMultiple, args = ([bottom[i2 % len(bottom)]+ ' Prof'],)) update_process.start() if 'Clock' not in bottom[i2 % len(bottom)]: image2 = self.openImage('./display_images/' + bottom[i2 % len(bottom)] +' Prof.ppm') image2 = image2.convert('RGB') elif bottom[i2 % len(bottom)] == 'Clock 2': #CLOCK 2 SETTINGS image2 = Image.new('RGB', (128, 16)) draw2 = ImageDraw.Draw(image2) the_time2 = time.time() font_b = ImageFont.load("fonts/6x12.pil") font2_b = ImageFont.load("fonts/5x8.pil") try: with open('clock_screensaver.json', 'r') as f: clock2_settings = json.load(f)['clock2'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) clock2_settings = clock_settings['clock2'] time_color1_b = clock2_settings['time_color'] date_color1_b = clock2_settings['date_color'] timezone1_b = clock2_settings['timezone'] display_s_b = clock2_settings['display_seconds'] display_p_b = clock2_settings['display_pm'] twelvehours_b = clock2_settings['12hour'] if twelvehours_b: if display_p_b and display_s_b: time_format_b = "%I:%M:%S %p" elif display_p_b and not display_s_b: time_format_b = "%I:%M %p" elif not display_p_b and display_s_b: time_format_b = "%I:%M:%S" else: time_format_b = "%I:%M" else: if display_p_b and display_s_b: time_format_b = "%H:%M:%S %p" elif display_p_b and not display_s_b: time_format_b = "%H:%M %p" elif not display_p_b and display_s_b: time_format_b = "%H:%M:%S" else: time_format_b = "%H:%M" if '+' in timezone1_b: timezone1_b = timezone1_b.replace('+', '-') elif '-' in timezone1_b: timezone1_b = timezone1_b.replace('-', '+') elif bottom[i2 % len(bottom)] == 'Clock 1': #CLOCK 1 SETTINGS image2 = Image.new('RGB', (128, 16)) draw2 = ImageDraw.Draw(image2) the_time2 = time.time() font_1_b = ImageFont.load("fonts/7x14B.pil") font_2_b = ImageFont.load("fonts/5x8.pil") try: with open('clock_screensaver.json', 'r') as f: clock1_settings = json.load(f)['clock1'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) clock1_settings = clock_settings['clock1'] time_color2_b = clock1_settings['time_color'] date_color2_b = clock1_settings['date_color'] weekday_color2_b = clock1_settings['weekday_color'] timezone2_b = clock1_settings['timezone'] display_s_b = clock1_settings['display_seconds'] display_p_b = clock1_settings['display_pm'] twelvehours_b = clock1_settings['12hour'] if twelvehours_b: if display_p_b and display_s_b: time_format_b = "%I:%M:%S %p" elif display_p_b and not display_s_b: time_format_b = "%I:%M %p" elif not display_p_b and display_s_b: time_format_b = "%I:%M:%S" else: time_format_b = "%I:%M" else: if display_p_b and display_s_b: time_format_b = "%H:%M:%S %p" elif display_p_b and not display_s_b: time_format_b = "%H:%M %p" elif not display_p_b and display_s_b: time_format_b = "%H:%M:%S" else: time_format_b = "%H:%M" if '+' in timezone2_b: timezone2_b = timezone2_b.replace('+', '-') elif '-' in timezone2_b: timezone2_b = timezone2_b.replace('-', '+') elif bottom[i2 % len(bottom)] == 'World Clock': #WORLD CLOCK SETTINGS image2 = Image.new('RGB', (128, 16)) draw2 = ImageDraw.Draw(image2) the_time2 = time.time() next_six_seconds2 = 0 counter2 = 0 font_12 = ImageFont.load("fonts/4x6.pil") try: with open('clock_screensaver.json', 'r') as f: world_settings = json.load(f)['world_clock'] except: clock_settings = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(clock_settings, f) world_settings = clock_settings['world_clock'] worldcity_color2 = world_settings['city_color'] display_s_b = world_settings['display_seconds'] display_p_b = world_settings['display_pm'] twelvehours_b = world_settings['12hour'] if twelvehours_b: if display_p_b and display_s_b: time_format_b = "%I:%M:%S %p" world_offset_b = 82 elif display_p_b and not display_s_b: time_format_b = "%I:%M %p" world_offset_b = 94 elif not display_p_b and display_s_b: time_format_b = "%I:%M:%S %p" world_offset_b = 94 else: time_format_b = "%I:%M %p" world_offset_b = 106 else: if display_p_b and display_s_b: time_format_b = "%H:%M:%S %p" world_offset_b = 82 elif display_p_b and not display_s_b: time_format_b = "%H:%M %p" world_offset_b = 94 elif not display_p_b and display_s_b: time_format_b = "%H:%M:%S %p" world_offset_b = 94 else: time_format_b = "%H:%M %p" world_offset_b = 106 img_width2, img_height2 = image2.size # SCROLL, DISPLAY, PAUSE CLOCK 2 if top[i1 % len(top)] == 'Clock 2': #Initial image generation so it doesn't appear blank for the first second if offset_x1 == 128 or offset_y1 == -16: draw.rectangle([(0,0),(128,16)], (0,0,0)) current_time = datetime.now(pytz.timezone(timezone1)).strftime(time_format + ",%a %d %b %Y").split(',') time_t = current_time[0] date_t = current_time[1].upper() date_width, date_height = draw.textsize(date_t, font2) text_width, text_height = draw.textsize(time_t, font) draw.text(((128-text_width)/2, -2), time_t, time_colors1[time_color1], font) draw.text(((128-date_width)/2, 8), date_t, time_colors1[date_color1], font2) #If time now is greater than 1 second of the previously updated image time, update image and reset updated image time to another second if time.time() >= the_time + 1: the_time = time.time() draw.rectangle([(0,0),(128,16)], (0,0,0)) current_time = datetime.now(pytz.timezone(timezone1)).strftime(time_format + ",%a %d %b %Y").split(',') time_t = current_time[0] date_t = current_time[1].upper() date_width, date_height = draw.textsize(date_t, font2) text_width, text_height = draw.textsize(time_t, font) draw.text(((128-text_width)/2, -2), time_t, time_colors1[time_color1], font) draw.text(((128-date_width)/2, 8), date_t, time_colors1[date_color1], font2) if time.time() - update_t1 > delay_t1: update_t1 = time.time() #Get the pause time right before image is done transitioning in if offset_y1 == -1 or offset_x1 == 1: pause_time = time.time() + pause1 if offset_y1 < 0: offset_y1+=1 else: #If the scrolling reaches 0 pixel, pause it if offset_x1 != 0: offset_x1 -= 1 else: try: #after the pause time, scroll iamge past 0 pixel to continue scrolling if time.time() >= pause_time: offset_x1 -= 1 except: pass # SCROLL, DISPLAY, PAUSE CLOCK 1 elif top[i1 % len(top)] == 'Clock 1': #Initial image generation so it doesn't appear blank for the first second if offset_x1 == 128 or offset_y1 == -16: draw.rectangle([(0,0),(128,16)], (0,0,0)) current_time = datetime.now(pytz.timezone(timezone2)).strftime(time_format + ",%A,%d %b").split(',') time_t = current_time[0] weekday_t = current_time[1].upper() date_t = current_time[2].upper() date_width, date_height = draw.textsize(date_t, font_2) wday_width, wday_height = draw.textsize(weekday_t, font_2) text_width, text_height = draw.textsize(time_t, font_1) total_width = text_width + 5 + max(wday_width, date_width) starting_coord = (128-total_width)/2 draw.text((starting_coord, 1), time_t, time_colors1[time_color2], font_1) draw.text((starting_coord + text_width + 5, 1), date_t, time_colors1[date_color2], font_2) draw.text((starting_coord + text_width + 6, 8), weekday_t, time_colors1[weekday_color2], font_2) #If time now is greater than 1 second of the previously updated image time, update image and reset updated image time to another second if time.time() >= the_time + 1: the_time = time.time() draw.rectangle([(0,0),(128,16)], (0,0,0)) current_time = datetime.now(pytz.timezone(timezone2)).strftime(time_format + ",%A,%d %b").split(',') time_t = current_time[0] weekday_t = current_time[1].upper() date_t = current_time[2].upper() date_width, date_height = draw.textsize(date_t, font_2) wday_width, wday_height = draw.textsize(weekday_t, font_2) text_width, text_height = draw.textsize(time_t, font_1) total_width = text_width + 5 + max(wday_width, date_width) starting_coord = (128-total_width)/2 draw.text((starting_coord, 1), time_t, time_colors1[time_color2], font_1) draw.text((starting_coord + text_width + 5, 1), date_t, time_colors1[date_color2], font_2) draw.text((starting_coord + text_width + 6, 8), weekday_t, time_colors1[weekday_color2], font_2) if time.time() - update_t1 > delay_t1: update_t1 = time.time() #Get the pause time right before image is done transitioning in if offset_y1 == -1 or offset_x1 == 1: pause_time = time.time() + pause1 if offset_y1 < 0: offset_y1+=1 else: #If the scrolling reaches 0 pixel, pause it if offset_x1 != 0: offset_x1 -= 1 else: try: #after the pause time, scroll iamge past 0 pixel to continue scrolling if time.time() >= pause_time: offset_x1 -= 1 except: pass # SCROLL, DISPLAY, PAUSE WORLD CLOCK elif top[i1 % len(top)] == 'World Clock': #Initial image generation so it doesn't appear blank for the first second if offset_x1 == 128 or offset_y1 == -16: draw.rectangle([(0,0),(128,16)], (0,0,0)) ny_time = datetime.now(pytz.timezone('America/New_York')).strftime(time_format) london_time = datetime.now(pytz.timezone('Europe/London')).strftime(time_format) ny_color = day_colors['day'] if isDaytime1(ny_time,twelvehours) else day_colors['night'] london_color = day_colors['day'] if isDaytime1(london_time,twelvehours) else day_colors['night'] if not display_p: ny_time = ny_time.replace("PM", "").replace("AM", "") london_time = london_time.replace("PM", "").replace("AM", "") draw.text((world_offset, 1), ny_time, ny_color, font_1) draw.text((world_offset, 9), london_time, london_color, font_1) draw.line([0,7,128,7],(50,50,50), width=1) draw.text((3, 1), 'NEW YORK', time_colors1[worldcity_color], font_1) draw.text((3, 9), 'LONDON', time_colors1[worldcity_color], font_1) #If time now is greater than 1 second of the previously updated image time, update image and reset updated image time to another second if time.time() >= the_time + 1: the_time = time.time() if counter == 0 or counter == 1: draw.rectangle([(0,0),(128,16)], (0,0,0)) ny_time = datetime.now(pytz.timezone('America/New_York')).strftime(time_format) london_time = datetime.now(pytz.timezone('Europe/London')).strftime(time_format) ny_color = day_colors['day'] if isDaytime1(ny_time,twelvehours) else day_colors['night'] london_color = day_colors['day'] if isDaytime1(london_time,twelvehours) else day_colors['night'] if not display_p: ny_time = ny_time.replace("PM", "").replace("AM", "") london_time = london_time.replace("PM", "").replace("AM", "") draw.text((world_offset, 1), ny_time, ny_color, font_1) draw.text((world_offset, 9), london_time, london_color, font_1) draw.line([0,7,128,7],(50,50,50), width=1) draw.text((3, 1), 'NEW YORK', time_colors1[worldcity_color], font_1) draw.text((3, 9), 'LONDON', time_colors1[worldcity_color], font_1) elif counter == 2: draw.rectangle([(0,0),(128,16)], (0,0,0)) tokyo_time = datetime.now(pytz.timezone('Asia/Tokyo')).strftime(time_format) au_time = datetime.now(pytz.timezone('Australia/Sydney')).strftime(time_format) tokyo_color = day_colors['day'] if isDaytime1(tokyo_time,twelvehours) else day_colors['night'] au_color = day_colors['day'] if isDaytime1(au_time,twelvehours) else day_colors['night'] if not display_p: au_time = au_time.replace("PM", "").replace("AM", "") tokyo_time = tokyo_time.replace("PM", "").replace("AM", "") draw.text((world_offset, 1), tokyo_time, tokyo_color, font_1) draw.text((world_offset, 9), au_time, au_color, font_1) draw.line([0,7,128,7],(50,50,50), width=1) draw.text((3, 1), 'TOKYO', time_colors1[worldcity_color], font_1) draw.text((3, 9), 'SYDNEY', time_colors1[worldcity_color], font_1) elif counter == 3: draw.rectangle([(0,0),(128,16)], (0,0,0)) dubai_time = datetime.now(pytz.timezone('Asia/Dubai')).strftime(time_format) la_time = datetime.now(pytz.timezone('America/Los_Angeles')).strftime(time_format) dubai_color = day_colors['day'] if isDaytime1(dubai_time,twelvehours) else day_colors['night'] la_color = day_colors['day'] if isDaytime1(la_time,twelvehours) else day_colors['night'] if not display_p: dubai_time = dubai_time.replace("PM", "").replace("AM", "") la_time = la_time.replace("PM", "").replace("AM", "") draw.text((world_offset, 1), dubai_time, dubai_color, font_1) draw.text((world_offset, 9), la_time, la_color, font_1) draw.line([0,7,128,7],(50,50,50), width=1) draw.text((3, 1), 'DUBAI', time_colors1[worldcity_color], font_1) draw.text((3, 9), 'LOS ANGELES', time_colors1[worldcity_color], font_1) elif counter == 4: draw.rectangle([(0,0),(128,16)], (0,0,0)) cn_time = datetime.now(pytz.timezone('Asia/Shanghai')).strftime(time_format) paris_time = datetime.now(pytz.timezone('Europe/Paris')).strftime(time_format) cn_color = day_colors['day'] if isDaytime1(cn_time,twelvehours) else day_colors['night'] paris_color = day_colors['day'] if isDaytime1(paris_time,twelvehours) else day_colors['night'] if not display_p: cn_time = cn_time.replace("PM", "").replace("AM", "") paris_time = paris_time.replace("PM", "").replace("AM", "") draw.text((world_offset, 1), cn_time, cn_color, font_1) draw.text((world_offset, 9), paris_time, paris_color, font_1) draw.line([0,7,128,7],(50,50,50), width=1) draw.text((3, 1), 'SHANGHAI', time_colors1[worldcity_color], font_1) draw.text((3, 9), 'PARIS', time_colors1[worldcity_color], font_1) elif counter == 5: draw.rectangle([(0,0),(128,16)], (0,0,0)) in_time = datetime.now(pytz.timezone('Asia/Kolkata')).strftime(time_format) auck_time = datetime.now(pytz.timezone('Pacific/Auckland')).strftime(time_format) in_color = day_colors['day'] if isDaytime1(in_time,twelvehours) else day_colors['night'] auck_color = day_colors['day'] if isDaytime1(auck_time,twelvehours) else day_colors['night'] if not display_p: in_time = in_time.replace("PM", "").replace("AM", "") auck_time = auck_time.replace("PM", "").replace("AM", "") draw.text((world_offset, 1), in_time, in_color, font_1) draw.text((world_offset, 9), auck_time, auck_color, font_1) draw.line([0,7,128,7],(50,50,50), width=1) draw.text((3, 1), 'MUMBAI', time_colors1[worldcity_color], font_1) draw.text((3, 9), 'AUCKLAND', time_colors1[worldcity_color], font_1) elif counter == 6: draw.rectangle([(0,0),(128,16)], (0,0,0)) bang_time = datetime.now(pytz.timezone('Asia/Bangkok')).strftime(time_format) istan_time = datetime.now(pytz.timezone('Europe/Istanbul')).strftime(time_format) bang_color = day_colors['day'] if isDaytime1(bang_time,twelvehours) else day_colors['night'] istan_color = day_colors['day'] if isDaytime1(istan_time,twelvehours) else day_colors['night'] if not display_p: istan_time = istan_time.replace("PM", "").replace("AM", "") bang_time = bang_time.replace("PM", "").replace("AM", "") draw.text((world_offset, 1), bang_time, bang_color, font_1) draw.text((world_offset, 9), istan_time, istan_color, font_1) draw.line([0,7,128,7],(50,50,50), width=1) draw.text((3, 1), 'BANGKOK', time_colors1[worldcity_color], font_1) draw.text((3, 9), 'ISTANBUL', time_colors1[worldcity_color], font_1) if the_time >= next_six_seconds: counter += 1 next_six_seconds = the_time + 6 if counter > 6: counter = 1 if time.time() - update_t1 > delay_t1: update_t1 = time.time() #Get the pause time right before image is done transitioning in if offset_y1 == -1 or offset_x1 == 1: pause_time = time.time() + pause1 if offset_y1 < 0: offset_y1+=1 else: #If the scrolling reaches 0 pixel, pause it if offset_x1 != 0: offset_x1 -= 1 else: try: #after the pause time, scroll iamge past 0 pixel to continue scrolling if time.time() >= pause_time: offset_x1 -= 1 except: pass #NORMAL SCROLLING elif 'Clock' not in top[i1 % len(top)]: if time.time() - update_t1 > delay_t1: update_t1 = time.time() if offset_y1 < 0: offset_y1+=1 else: offset_x1 -= 1 #BOTTOM ROW if 'Clock' not in bottom[i2 % len(bottom)]: if time.time() - update_t2 > delay_t2: update_t2 = time.time() if offset_y2 > 16: offset_y2-=1 else: offset_x2 -= 1 # SCROLL, DISPLAY, PAUSE CLOCK 2 elif bottom[i2 % len(bottom)] == 'Clock 2': #Initial image generation so it doesn't appear blank for the first second if offset_x2 == 128 or offset_y2 == 32: draw2.rectangle([(0,0),(128,16)], (0,0,0)) current_time_b = datetime.now(pytz.timezone(timezone1_b)).strftime(time_format_b + ",%a %d %b %Y").split(',') time_t_b = current_time_b[0] date_t_b = current_time_b[1].upper() date_width_b, date_height_b = draw2.textsize(date_t_b, font2_b) text_width_b, text_height_b = draw2.textsize(time_t_b, font_b) draw2.text(((128-text_width_b)/2, -2), time_t_b, time_colors1[time_color1_b], font_b) draw2.text(((128-date_width_b)/2, 8), date_t_b, time_colors1[date_color1_b], font2_b) #If time now is greater than 1 second of the previously updated image time, update image and reset updated image time to another second if time.time() >= the_time2 + 1: the_time2 = time.time() draw2.rectangle([(0,0),(128,16)], (0,0,0)) current_time_b = datetime.now(pytz.timezone(timezone1_b)).strftime(time_format_b + ",%a %d %b %Y").split(',') time_t_b = current_time_b[0] date_t_b = current_time_b[1].upper() date_width_b, date_height_b = draw2.textsize(date_t_b, font2_b) text_width_b, text_height_b = draw2.textsize(time_t_b, font_b) draw2.text(((128-text_width_b)/2, -2), time_t_b, time_colors1[time_color1_b], font_b) draw2.text(((128-date_width_b)/2, 8), date_t_b, time_colors1[date_color1_b], font2_b) if time.time() - update_t2 > delay_t2: update_t2 = time.time() #Get the pause time right before image is done transitioning in if offset_y2 == 17 or offset_x2 == 1: pause_time2 = time.time() + pause2 if offset_y2 > 16: offset_y2-=1 else: #If the scrolling reaches 0 pixel, pause it if offset_x2 != 0: offset_x2 -= 1 else: try: #after the pause time, scroll iamge past 0 pixel to continue scrolling if time.time() >= pause_time2: offset_x2 -= 1 except: pass # SCROLL, DISPLAY, PAUSE CLOCK 1 elif bottom[i2 % len(bottom)] == 'Clock 1': #Initial image generation so it doesn't appear blank for the first second if offset_x2 == 128 or offset_y2 == 32: draw2.rectangle([(0,0),(128,16)], (0,0,0)) current_time_b = datetime.now(pytz.timezone(timezone2_b)).strftime(time_format_b + ",%A,%d %b").split(',') time_t_b = current_time_b[0] weekday_t_b = current_time_b[1].upper() date_t_b = current_time_b[2].upper() date_width_b, date_height_b = draw2.textsize(date_t_b, font_2_b) wday_width_b, wday_height_b = draw2.textsize(weekday_t_b, font_2_b) text_width_b, text_height_b = draw2.textsize(time_t_b, font_1_b) total_width_b = text_width_b + 5 + max(wday_width_b, date_width_b) starting_coord_b = (128-total_width_b)/2 draw2.text((starting_coord_b, 1), time_t_b, time_colors1[time_color2_b], font_1_b) draw2.text((starting_coord_b + text_width_b + 5, 1), date_t_b, time_colors1[date_color2_b], font_2_b) draw2.text((starting_coord_b + text_width_b + 6, 8), weekday_t_b, time_colors1[weekday_color2_b], font_2_b) #If time now is greater than 1 second of the previously updated image time, update image and reset updated image time to another second if time.time() >= the_time2 + 1: the_time2 = time.time() draw2.rectangle([(0,0),(128,16)], (0,0,0)) current_time_b = datetime.now(pytz.timezone(timezone2_b)).strftime(time_format_b + ",%A,%d %b").split(',') time_t_b = current_time_b[0] weekday_t_b = current_time_b[1].upper() date_t_b = current_time_b[2].upper() date_width_b, date_height_b = draw2.textsize(date_t_b, font_2_b) wday_width_b, wday_height_b = draw2.textsize(weekday_t_b, font_2_b) text_width_b, text_height_b = draw2.textsize(time_t_b, font_1_b) total_width_b = text_width_b + 5 + max(wday_width_b, date_width_b) starting_coord_b = (128-total_width_b)/2 draw2.text((starting_coord_b, 1), time_t_b, time_colors1[time_color2_b], font_1_b) draw2.text((starting_coord_b + text_width_b + 5, 1), date_t_b, time_colors1[date_color2_b], font_2_b) draw2.text((starting_coord_b + text_width_b + 6, 8), weekday_t_b, time_colors1[weekday_color2_b], font_2_b) if time.time() - update_t2 > delay_t2: update_t2 = time.time() #Get the pause time right before image is done transitioning in if offset_y2 == 17 or offset_x2 == 1: pause_time2 = time.time() + pause2 if offset_y2 > 16: offset_y2-=1 else: #If the scrolling reaches 0 pixel, pause it if offset_x2 != 0: offset_x2 -= 1 else: try: #after the pause time, scroll iamge past 0 pixel to continue scrolling if time.time() >= pause_time2: offset_x2 -= 1 except: pass # SCROLL, DISPLAY, PAUSE WORLD CLOCK elif bottom[i2 % len(bottom)] == 'World Clock': #Initial image generation so it doesn't appear blank for the first second if offset_x2 == 128 or offset_y2 == 32: draw2.rectangle([(0,0),(128,16)], (0,0,0)) ny_time_b = datetime.now(pytz.timezone('America/New_York')).strftime(time_format_b) london_time_b = datetime.now(pytz.timezone('Europe/London')).strftime(time_format_b) ny_color_b = day_colors['day'] if isDaytime1(ny_time_b,twelvehours_b) else day_colors['night'] london_color_b = day_colors['day'] if isDaytime1(london_time_b,twelvehours_b) else day_colors['night'] if not display_p_b: ny_time_b = ny_time_b.replace("PM", "").replace("AM", "") london_time_b = london_time_b.replace("PM", "").replace("AM", "") draw2.text((world_offset_b, 1), ny_time_b, ny_color_b, font_12) draw2.text((world_offset_b, 9), london_time_b, london_color_b, font_12) draw2.line([0,7,128,7],(50,50,50), width=1) draw2.text((3, 1), 'NEW YORK', time_colors1[worldcity_color2], font_12) draw2.text((3, 9), 'LONDON', time_colors1[worldcity_color2], font_12) #If time now is greater than 1 second of the previously updated image time, update image and reset updated image time to another second if time.time() >= the_time2 + 1: the_time2 = time.time() if counter2 == 0 or counter2 == 1: draw2.rectangle([(0,0),(128,16)], (0,0,0)) ny_time_b = datetime.now(pytz.timezone('America/New_York')).strftime(time_format_b) london_time_b = datetime.now(pytz.timezone('Europe/London')).strftime(time_format_b) ny_color_b = day_colors['day'] if isDaytime1(ny_time_b,twelvehours_b) else day_colors['night'] london_color_b = day_colors['day'] if isDaytime1(london_time_b,twelvehours_b) else day_colors['night'] if not display_p_b: ny_time_b = ny_time_b.replace("PM", "").replace("AM", "") london_time_b = london_time_b.replace("PM", "").replace("AM", "") draw2.text((world_offset_b, 1), ny_time_b, ny_color_b, font_12) draw2.text((world_offset_b, 9), london_time_b, london_color_b, font_12) draw2.line([0,7,128,7],(50,50,50), width=1) draw2.text((3, 1), 'NEW YORK', time_colors1[worldcity_color2], font_12) draw2.text((3, 9), 'LONDON', time_colors1[worldcity_color2], font_12) elif counter2 == 2: draw2.rectangle([(0,0),(128,16)], (0,0,0)) tokyo_time_b = datetime.now(pytz.timezone('Asia/Tokyo')).strftime(time_format_b) au_time_b = datetime.now(pytz.timezone('Australia/Sydney')).strftime(time_format_b) tokyo_color_b = day_colors['day'] if isDaytime1(tokyo_time_b,twelvehours_b) else day_colors['night'] au_color_b = day_colors['day'] if isDaytime1(au_time_b,twelvehours_b) else day_colors['night'] if not display_p_b: au_time_b = au_time_b.replace("PM", "").replace("AM", "") tokyo_time_b = tokyo_time_b.replace("PM", "").replace("AM", "") draw2.text((world_offset_b, 1), tokyo_time_b, tokyo_color_b, font_12) draw2.text((world_offset_b, 9), au_time_b, au_color_b, font_12) draw2.line([0,7,128,7],(50,50,50), width=1) draw2.text((3, 1), 'TOKYO', time_colors1[worldcity_color2], font_12) draw2.text((3, 9), 'SYDNEY', time_colors1[worldcity_color2], font_12) elif counter2 == 3: draw2.rectangle([(0,0),(128,16)], (0,0,0)) dubai_time_b = datetime.now(pytz.timezone('Asia/Dubai')).strftime(time_format_b) la_time_b = datetime.now(pytz.timezone('America/Los_Angeles')).strftime(time_format_b) dubai_color_b = day_colors['day'] if isDaytime1(dubai_time_b,twelvehours_b) else day_colors['night'] la_color_b = day_colors['day'] if isDaytime1(la_time_b,twelvehours_b) else day_colors['night'] if not display_p_b: dubai_time_b = dubai_time_b.replace("PM", "").replace("AM", "") la_time_b = la_time_b.replace("PM", "").replace("AM", "") draw2.text((world_offset_b, 1), dubai_time_b, dubai_color_b, font_12) draw2.text((world_offset_b, 9), la_time_b, la_color_b, font_12) draw2.line([0,7,128,7],(50,50,50), width=1) draw2.text((3, 1), 'DUBAI', time_colors1[worldcity_color2], font_12) draw2.text((3, 9), 'LOS ANGELES', time_colors1[worldcity_color2], font_12) elif counter2 == 4: draw2.rectangle([(0,0),(128,16)], (0,0,0)) cn_time_b = datetime.now(pytz.timezone('Asia/Shanghai')).strftime(time_format_b) paris_time_b = datetime.now(pytz.timezone('Europe/Paris')).strftime(time_format_b) cn_color_b = day_colors['day'] if isDaytime1(cn_time_b,twelvehours_b) else day_colors['night'] paris_color_b = day_colors['day'] if isDaytime1(paris_time_b,twelvehours_b) else day_colors['night'] if not display_p_b: cn_time_b = cn_time_b.replace("PM", "").replace("AM", "") paris_time_b = paris_time_b.replace("PM", "").replace("AM", "") draw2.text((world_offset_b, 1), cn_time_b, cn_color_b, font_12) draw2.text((world_offset_b, 9), paris_time_b, paris_color_b, font_12) draw2.line([0,7,128,7],(50,50,50), width=1) draw2.text((3, 1), 'SHANGHAI', time_colors1[worldcity_color2], font_12) draw2.text((3, 9), 'PARIS', time_colors1[worldcity_color2], font_12) elif counter2 == 5: draw2.rectangle([(0,0),(128,16)], (0,0,0)) in_time_b = datetime.now(pytz.timezone('Asia/Kolkata')).strftime(time_format_b) auck_time_b = datetime.now(pytz.timezone('Pacific/Auckland')).strftime(time_format_b) in_color_b = day_colors['day'] if isDaytime1(in_time_b,twelvehours_b) else day_colors['night'] auck_color_b = day_colors['day'] if isDaytime1(auck_time_b,twelvehours_b) else day_colors['night'] if not display_p_b: in_time_b = in_time_b.replace("PM", "").replace("AM", "") auck_time_b = auck_time_b.replace("PM", "").replace("AM", "") draw2.text((world_offset_b, 1), in_time_b, in_color_b, font_12) draw2.text((world_offset_b, 9), auck_time_b, auck_color_b, font_12) draw2.line([0,7,128,7],(50,50,50), width=1) draw2.text((3, 1), 'MUMBAI', time_colors1[worldcity_color2], font_12) draw2.text((3, 9), 'AUCKLAND', time_colors1[worldcity_color2], font_12) elif counter2 == 6: draw2.rectangle([(0,0),(128,16)], (0,0,0)) bang_time_b = datetime.now(pytz.timezone('Asia/Bangkok')).strftime(time_format_b) istan_time_b = datetime.now(pytz.timezone('Europe/Istanbul')).strftime(time_format_b) bang_color_b = day_colors['day'] if isDaytime1(bang_time_b,twelvehours_b) else day_colors['night'] istan_color_b = day_colors['day'] if isDaytime1(istan_time_b,twelvehours_b) else day_colors['night'] if not display_p_b: istan_time_b = istan_time_b.replace("PM", "").replace("AM", "") bang_time_b = bang_time_b.replace("PM", "").replace("AM", "") draw2.text((world_offset_b, 1), bang_time_b, bang_color_b, font_12) draw2.text((world_offset_b, 9), istan_time_b, istan_color_b, font_12) draw2.line([0,7,128,7],(50,50,50), width=1) draw2.text((3, 1), 'BANGKOK', time_colors1[worldcity_color2], font_12) draw2.text((3, 9), 'ISTANBUL', time_colors1[worldcity_color2], font_12) if the_time2 >= next_six_seconds2: counter2 += 1 next_six_seconds2 = the_time2 + 6 if counter2 > 6: counter2 = 1 if time.time() - update_t2 > delay_t2: update_t2 = time.time() #Get the pause time right before image is done transitioning in if offset_y2 == 17 or offset_x2 == 1: pause_time2 = time.time() + pause2 if offset_y2 > 16: offset_y2-=1 else: #If the scrolling reaches 0 pixel, pause it if offset_x2 != 0: offset_x2 -= 1 else: try: #after the pause time, scroll iamge past 0 pixel to continue scrolling if time.time() >= pause_time2: offset_x2 -= 1 except: pass if kill: break # SCROLLING OF THE IMAGE self.double_buffer.SetImage(image1, offset_x1, offset_y1) self.double_buffer.SetImage(image2, offset_x2, offset_y2) # remove the ppixels behind the image, to stop trailing self.double_buffer = self.matrix.SwapOnVSync(self.double_buffer) for y in range(16): self.matrix.SetPixel(offset_x1 + img_width1 +1 , y , 0,0,0) self.matrix.SetPixel(offset_x1 + img_width1 , y , 0,0,0) for y in range(16,32): self.matrix.SetPixel(offset_x2 + img_width2 +1 , y , 0,0,0) self.matrix.SetPixel(offset_x2 + img_width2 , y , 0,0,0) kill = self.checkKilled() if kill: break def scrollMultiple(self, animation = 'down'): # scrolls trhough all functions with animation. Updates functions and remakes images when each function not being dispplayed # read lines from csv images = [] delays = [] kinds = [] f = open('csv/multiple.csv', 'r') CSV = csv.reader(f) next(CSV) font = ImageFont.load("./fonts/texgyre-27.pil") for row in CSV: kind, content, delay = row delays.append(delay) kinds.append(kind) if kind == 'text': images.append(self.textImage(content, font, 255, 255, 0, True, w_buff = 50)) elif kind == 'image': images.append(self.openImage(content).convert('RGB')) elif kind == 'gif': images.append(self.openImage(content)) f.close() kill = False i = 0 # keep track of which image we are displaying self.double_buffer = self.matrix.CreateFrameCanvas() while True: image = images[i%len(images)] delay = delays[i%len(images)] kind = kinds[i%len(images)] img_width, img_height = image.size offset_x = 0 if animation == 'traditional': offset_x = 128 elif animation == 'continuous': offset_x = 0 elif animation in ['up', 'down']: offset_x = max(0, 128-img_width) offset_y = 0 #first scroll image in from bottom frame_skip = int((1/15)/self.delay) #controls how fast gifs run self.frame = 0 pause_frames = int(float(delay)/self.delay) if animation == 'up': offset_y = 33 direction = -1 kill = self.scrollImageY(image, direction = direction, offset_x = offset_x, offset_y = offset_y, frame_skip = frame_skip, gif = kind=='gif') elif animation == 'down': direction = 1 offset_y = -33 kill = self.scrollImageY(image, direction = direction, offset_x = offset_x, offset_y = offset_y, frame_skip = frame_skip, gif = kind=='gif') offset_y = 0 if kill: break kill = self.scrollImage(image, offset_x = offset_x, offset_y = offset_y, frame_skip = frame_skip, gif = kind=='gif', pause_frames = pause_frames) if kill: break i+=1 def textImage(self, text, font, r = 255, g = 255, b = 255, matrix_height = False, w_buff = 3, h_buff = 3, background = False, location = False): #creates and returns a ppm image containing the text in the supplied font and colour width, height = self.get_text_dimensions(text, font) if matrix_height: height = 32 img = Image.new('RGB', (width + w_buff, height + h_buff)) d = ImageDraw.Draw(img) if background: br, bg, bb = background d.rectangle(xy = (0, 0, width + w_buff, height + h_buff), fill = (br, bg, bb)) #outline = (255, 255, 255), #width = 0) #use outline and width to add a border if location: d.text(location, text, fill=(r, g, b), font=font) else: d.text((0, 0), text, fill=(r, g, b), font=font) return img def getUserMessages(self): #displays the text entered in the webpage by the user. f = open('csv/message_settings.json', 'r') all_settings = json.load(f) f.close() colours = {'Black':(0,0,0), 'White':(255,255,255), 'Red':(255,0,0), 'Green':(0,255,0), 'Dark Green':(0,100,0), 'Blue':(0,0,255), 'Purple':(145,0,255), 'Pink':(255,0,255), 'Yellow':(255,255,0), 'Orange':(255,130,0), 'Gold':(255,190,0), 'Gray':(100,100,100), 'Cyan':(0,255,255)} imgs = [] for ind, message in enumerate(all_settings['messages']): font = ImageFont.load("./fonts/10x20.pil") location = (0, 4) if message["size"] == 'Large': font = ImageFont.load("./fonts/texgyre-27.pil") location = (0, -2) elif message["size"] == 'Small': font = ImageFont.load("./fonts/6x13.pil") location = (0, 7) r,g,b = colours[message['text_colour']] background = colours[message['background_colour']] decoded = message['text'].encode("ascii","ignore") message['text'] = decoded.decode() img = self.textImage(message['text'], font, int(r), int(g), int(b), True, w_buff = 5, background = background, location = location) if all_settings['title'] and ind == 0: title_img = self.openImage('feature_titles/message.png') imgs.append(self.stitchImage([title_img, img])) else: imgs.append(img) return imgs def getUserMessagesProfessional(self): f = open('csv/message_settings.json', 'r') all_settings = json.load(f) f.close() if all_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/message.png') image_list = [title_img] else: image_list = [] colours = {'Black':(0,0,0), 'White':(255,255,255), 'Red':(255,0,0), 'Green':(0,255,0), 'Dark Green':(0,100,0), 'Blue':(0,0,255), 'Purple':(145,0,255), 'Pink':(255,0,255), 'Yellow':(255,255,0), 'Orange':(255,130,0), 'Gold':(255,190,0), 'Gray':(100,100,100), 'Cyan':(0,255,255)} blank = Image.new('RGB', (0, 16)) for i, message in enumerate(all_settings['messages']): if (i == len(all_settings['messages'])-1): font = ImageFont.load("./fonts/6x13.pil") location = (5, 2) r,g,b = colours[message['text_colour']] background = colours[message['background_colour']] decoded = message['text'].encode("ascii","ignore") message['text'] = decoded.decode() msg_img = self.textImage(message['text'], font, int(r), int(g), int(b), True, w_buff = 11, background = background, location = location) img = Image.new('RGB', (msg_img.size[0] + 5, 32)) img.paste(msg_img, (0,0)) image_list.append(img) image_list.append(blank) else: font = ImageFont.load("./fonts/6x13.pil") location = (5, 2) r,g,b = colours[message['text_colour']] background = colours[message['background_colour']] decoded = message['text'].encode("ascii","ignore") message['text'] = decoded.decode() msg_img = self.textImage(message['text'], font, int(r), int(g), int(b), True, w_buff = 11, background = background, location = location) img = Image.new('RGB', (msg_img.size[0] + 130, 32)) img.paste(msg_img, (0,0)) image_list.append(img) image_list.append(blank) return self.stitchImage(image_list) def displayGIF(self, gif, delay = 0.5, repeat = True): # To iterate through the entire gif i = 0 while True: try: gif.seek(i) except EOFError: if not repeat: break i = 0 gif.seek(i) # do something to im self.setImage(gif.convert('RGB')) time.sleep(delay) i += 1 try: msg = getInput() if msg == 'K': gif.close() self.resetMatrix() break self.process_msg(msg) except KeyboardInterrupt: sys.stdout.flush() pass def scrollGIF(self, gif, offset_x = 0, offset_y = 0): # To iterate through the entire gif i = 0 img_width, img_height = gif.size while offset_x > -img_width: offset_x -= 1 try: gif.seek(i) except EOFError: i = 0 gif.seek(i) # do something to im self.setImage(gif.convert('RGB'), offset_x = offset_x) time.sleep(self.delay) if offset_x % 20 == 0: i += 1 for x in range(offset_x + img_width, 128): for y in range(self.matrix.height): self.matrix.SetPixel(x , y , 0,0,0) kill = self.checkKilled() if kill: break return kill #Using change between min and day price give appropriate arrow #and set the overall change colour def getArrow(self, CHANGE, professional = False): self.greenORred logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'stocks') if(CHANGE>0): Arrow = Image.open(os.path.join(logos_path, 'up-1.png')) self.greenORred = (0, 255, 0) else: Arrow = Image.open(os.path.join(logos_path, 'down-1.png')) self.greenORred = (255, 0, 0) CHANGE = (CHANGE * -1) if professional: w, h = Arrow.size Arrow = Arrow.resize((int(w/2), int(h/2))) return Arrow, CHANGE def get_text_dimensions(self, text_string, font): canvas = Image.new('RGB', (10000,100)) draw = ImageDraw.Draw(canvas) monospace = font text = text_string white = (255,255,255) draw.text((0, 0), text, font=monospace, fill=white) bbox = canvas.getbbox() width = bbox[2]-bbox[0] height = bbox[3]-bbox[1] return width,height #Draw Ticker, current and change onto one image def textToImage(self, TICKER, CURRENT, ARROW, percent_change = False, point_change = False, font = ImageFont.load("./fonts/10x20.pil")): w1, text_height = self.get_text_dimensions(TICKER, font) w2, text_height = self.get_text_dimensions(CURRENT, font) text_width_current = max(w1,w2) img = Image.new('RGB', (text_width_current +1000 , 32)) d = ImageDraw.Draw(img) d.text((4, 0), TICKER, fill=(255, 255, 255), font=font) d.text((4, 16), CURRENT, fill=self.greenORred, font=font) if percent_change: d.text(((w1+7), 14 - text_height), percent_change, fill=self.greenORred, font=font) w, h = self.get_text_dimensions(percent_change, font) w1 += 7 + w if point_change: img.paste(ARROW, ((w2+ 9),18)) d.text(((w2+29), 16), point_change, fill=self.greenORred, font=font) w,h = self.get_text_dimensions(point_change, font) w2 += 29 + w if not point_change and not percent_change: img.paste(ARROW, ((w2+ 9),18)) w2 += ARROW.size[0] + 9 img = img.crop((0,0,max(w1, w2) + 8,32)) return img def textToImageProf(self, TICKER, CURRENT, CHANGE, ARROW, font): if 'E-MINI' in TICKER: w1, text_height = self.get_text_dimensions(TICKER, font) w2, text_height = self.get_text_dimensions(CURRENT, font) text_width_current = max(w1,w2) img = Image.new('RGB', (text_width_current +100 , 32)) d = ImageDraw.Draw(img) d.text((4, 0), TICKER, fill=(255, 255, 255), font=font) d.text((4, 8), CURRENT, fill=self.greenORred, font=font) img.paste(ARROW, ((w2 + 7),10)) d.text(((w2+18), 8), CHANGE, fill=self.greenORred, font=font) text_width_change, text_height = self.get_text_dimensions(CHANGE, font) newWidth = max(w2 + text_width_change, text_width_current) +15 img = img.crop((0,0,newWidth,32)) elif 'display_name' in TICKER: TICKER = TICKER.replace('display_name','') w1, text_height = self.get_text_dimensions(TICKER, font) w2, text_height = self.get_text_dimensions(CURRENT, font) text_width_current = max(w1,w2) img = Image.new('RGB', (text_width_current +100 , 32)) d = ImageDraw.Draw(img) d.text((4, 0), TICKER, fill=(255, 255, 255), font=font) d.text((4, 8), CURRENT, fill=self.greenORred, font=font) img.paste(ARROW, ((w2 + 7),10)) d.text(((w2+18), 8), CHANGE, fill=self.greenORred, font=font) text_width_change, text_height = self.get_text_dimensions(CHANGE, font) newWidth = max(w2 + 15 + text_width_change, text_width_current) +15 img = img.crop((0,0,newWidth,32)) elif 'Sector' in CHANGE: w1, text_height = self.get_text_dimensions(TICKER, font) w2, text_height = self.get_text_dimensions(CURRENT, font) text_width_current = max(w1,w2) img = Image.new('RGB', (text_width_current +100 , 32)) d = ImageDraw.Draw(img) d.text((4, 0), TICKER, fill=(255, 255, 255), font=font) d.text((4, 8), CURRENT, fill=self.greenORred, font=font) img.paste(ARROW, ((w2 + 7),10)) newWidth = max(w2 + ARROW.size[0] + 7, text_width_current) +15 img = img.crop((0,0,newWidth,32)) else: text_width_current, text_height = self.get_text_dimensions(CURRENT, font) img = Image.new('RGB', (text_width_current +100 , 32)) d = ImageDraw.Draw(img) d.text((4, 0), TICKER, fill=(255, 255, 255), font=font) d.text((4, 8), CURRENT, fill=self.greenORred, font=font) img.paste(ARROW, ((text_width_current + 7),10)) d.text(((text_width_current+18), 8), CHANGE, fill=self.greenORred, font=font) text_width_change, text_height = self.get_text_dimensions(CHANGE, font) newWidth = text_width_current + text_width_change +30 img = img.crop((0,0,newWidth,32)) return img #Stitch the logo & prices picture into one image def stitchImage(self, image_list): widths, heights = zip(*(i.size for i in image_list)) total_width = sum(widths) max_height = max(heights) new_im = Image.new('RGB', (total_width, max_height)) x_offset = 0 for im in image_list: new_im.paste(im, (x_offset,0)) x_offset += im.size[0] return new_im def resetMatrix(self): for x in range(self.matrix.width): for y in range(self.matrix.height): self.matrix.SetPixel(x , y , 0,0,0) def getCryptoImage(self): f = open('csv/crypto_settings.json', 'r') all_crypto_settings = json.load(f) f.close() if all_crypto_settings['title']: title_img = self.openImage('feature_titles/crypto.png') image_list = [title_img] image_list.append(self.blank) else: image_list = [] if all_crypto_settings['chart']: try: f = open('csv/portfolio_crypto_settings.json', 'r') portfolio_settings = json.load(f)['symbols'] f.close() except: pass try: if all_crypto_settings['display_name']: names = True else: names = False except: names = False pass coin_info = all_crypto_settings['symbols'] coin_bases = list(coin_info.keys()) for i, cb in enumerate(coin_bases): try: ticker, base = cb.split(',') current = float(coin_info[cb]["current"]) point_change = float(coin_info[cb]["24hr_change"]) point_change2 = abs(point_change) point_changefinal = '{0:.10f}'.format(point_change2).rstrip("0") current_final = '{0:.10f}'.format(current).rstrip("0") percent_change = float(coin_info[cb]["percent_change"]) arrow, change = self.getArrow(point_change) percent_change = '%.2f' % abs(percent_change) + '%' num3 = point_changefinal.split('.') if len(num3[1]) <= 1: point_change = '%.2f' % float(point_changefinal) else: point_change = str(point_changefinal) num2 = current_final.split('.') if len(num2[1]) <= 1: current = '%.2f' % float(current_final) else: current = str(current_final) if not all_crypto_settings['percent']: percent_change = False if not all_crypto_settings['point']: point_change = False if names: try: ticker = coin_info[cb]['name'].upper() midFrame = self.textToImage(ticker, current, arrow, percent_change, point_change) #IMAGE THE TEXT except: ticker, base = cb.split(',') midFrame = self.textToImage(ticker + '(' + base + ')', current, arrow, percent_change, point_change) #IMAGE THE TEXT else: midFrame = self.textToImage(ticker + '(' + base + ')', current, arrow, percent_change, point_change) #IMAGE THE TEXT if all_crypto_settings['logos']: try: ticker, base = cb.split(',') logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'crypto') logo = self.openImage(os.path.join(logos_path, ticker + '.png')) stitchedStock = self.stitchImage([logo,midFrame]) except Exception as e: stitchedStock = midFrame else: stitchedStock = midFrame try: if all_crypto_settings['lohivol']: font = ImageFont.load("./fonts/5x8.pil") try: day_low1 = '{0:.10f}'.format(float(coin_info[cb]['day_low'])).rstrip("0") day_high1 = '{0:.10f}'.format(float(coin_info[cb]['day_high'])).rstrip("0") day_low2 = day_low1.split('.') day_high2 = day_high1.split('.') if len(day_low2[1]) <= 1: day_low = '%.2f' % float(day_low1) else: day_low = day_low1 if len(day_high2[1]) <= 1: day_high = '%.2f' % float(day_high1) else: day_high = day_high1 volume = coin_info[cb]['volume'] daylow_img = self.textImage(day_low, font, r=0, g=255, b=0) daylow_t_img = self.textImage('Lo', font, r=255, g=255, b=255) dayhi_img = self.textImage(day_high, font, r=0,g=255,b=0) dayhi_t_img = self.textImage('Hi', font, r=255,g=255,b=255) vol_img = self.textImage(volume, font, r=0,g=255,b=0) vol_t_img = self.textImage('Vol', font, r=255,g=255,b=255) lohivol_img = Image.new('RGB', (max(daylow_img.size[0] + daylow_t_img.size[0], dayhi_img.size[0] + dayhi_t_img.size[0], vol_img.size[0] + vol_t_img.size[0]) + 5, 32)) lohivol_img.paste(daylow_t_img, (0, 3)) lohivol_img.paste(daylow_img, (daylow_t_img.size[0],3)) lohivol_img.paste(dayhi_t_img, (0, 12)) lohivol_img.paste(dayhi_img, (dayhi_t_img.size[0], 12)) lohivol_img.paste(vol_t_img, (0, 21)) lohivol_img.paste(vol_img, (vol_t_img.size[0], 21)) except: pass except: pass try: if all_crypto_settings['chart'] and (cb in portfolio_settings): #IF USER INPUTTED PORTFOLIO SETTINGS, DISPLAY PORTFOLIO INFO try: cost = portfolio_settings[cb]['cost'] day = portfolio_settings[cb]['day'] day_start = datetime.strptime(str(day), "%Y-%m-%d") day_today = datetime.strptime(datetime.now(pytz.utc).strftime("%Y-%m-%d"), "%Y-%m-%d") day = str((day_today - day_start).days) shares = portfolio_settings[cb]['shares'] original_value = float(cost) * float(shares) new_value = float(coin_info[cb]['current']) * float(shares) value_day_change_percent = ((float(coin_info[cb]['percent_change'])/100) * new_value) font = ImageFont.load("./fonts/5x8.pil") cost_img = self.textImage('Cost', font, r = 255, g = 255 , b = 255) cost2_img = self.textImage(cost, font, r = 0, g = 255, b = 0) shares_img = self.textImage('Shares', font, r = 255, g = 255 , b = 255) shares2_img = self.textImage(shares, font, r = 0, g = 255, b = 0) pnlchange = new_value - original_value pnlpercent = ((new_value - original_value) / original_value) * 100 pnlpercent_img = self.textImage('P/L%', font, r = 255, g = 255 , b = 255) if pnlpercent >= 0: pnlpercent2_img = self.textImage(str('%.2f' % abs(pnlpercent)) + '%', font, r = 0, g = 255, b = 0) else: pnlpercent2_img = self.textImage(str('%.2f' % abs(pnlpercent)) + '%', font, r = 255, g = 0, b = 0) daypercent_img = self.textImage('Day%', font, r = 255, g = 255 , b = 255) if float(coin_info[cb]['percent_change']) >= 0: daypercent2_img = self.textImage(str('%.2f' % abs(float(coin_info[cb]['percent_change']))) +'%', font, r = 0, g = 255, b = 0) else: daypercent2_img = self.textImage(str('%.2f' % abs(float(coin_info[cb]['percent_change'])))+'%', font, r = 255, g = 0, b = 0) days_img = self.textImage('Days', font, r = 255, g = 255 , b = 255) days2_img = self.textImage(day, font, r = 0, g = 255, b = 0) value_img = self.textImage('Value', font, r = 255, g = 255 , b = 255) value2_img = self.textImage(str('%.2f' % abs(original_value)), font, r = 0, g = 255, b = 0) pnlchange_img = self.textImage('P/L$', font, r = 255, g = 255 , b = 255) if pnlchange >= 0: pnlchange2_img = self.textImage(str('%.2f' % abs(pnlchange)), font, r = 0, g = 255, b = 0) else: pnlchange2_img = self.textImage(str('%.2f' % abs(pnlchange)), font, r = 255, g = 0, b = 0) daychange_img = self.textImage('Day$', font, r = 255, g = 255 , b = 255) if value_day_change_percent >= 0: daychange2_img = self.textImage(str('%.2f' % abs(value_day_change_percent)), font, r = 0, g = 255, b = 0) else: daychange2_img = self.textImage(str('%.2f' % abs(value_day_change_percent)), font, r = 255, g = 0, b = 0) x_offset = 0 img = Image.new('RGB', (max(cost_img.size[0], cost2_img.size[0], days_img.size[0], days2_img.size[0]) + 7 + max(shares_img.size[0], shares2_img.size[0], value2_img.size[0], value_img.size[0]) + 7 + max(pnlpercent_img.size[0], pnlpercent2_img.size[0], pnlchange_img.size[0], pnlchange2_img.size[0]) + 7 + max(daypercent_img.size[0], daypercent2_img.size[0], daychange_img.size[0], daychange2_img.size[0]) + 15, 32)) img.paste(cost_img, (x_offset, 0)) img.paste(cost2_img, (x_offset, 8)) img.paste(days_img, (x_offset, 16)) img.paste(days2_img, (x_offset, 24)) x_offset += max(cost_img.size[0], cost2_img.size[0], days_img.size[0], days2_img.size[0]) + 7 img.paste(shares_img, (x_offset, 0)) img.paste(shares2_img, (x_offset, 8)) img.paste(value_img, (x_offset, 16)) img.paste(value2_img, (x_offset, 24)) x_offset += max(shares_img.size[0], shares2_img.size[0], value2_img.size[0], value_img.size[0]) + 7 img.paste(pnlpercent_img, (x_offset, 0)) img.paste(pnlpercent2_img, (x_offset, 8)) img.paste(pnlchange_img, (x_offset, 16)) img.paste(pnlchange2_img, (x_offset, 24)) x_offset += max(pnlpercent_img.size[0], pnlpercent2_img.size[0], pnlchange_img.size[0], pnlchange2_img.size[0]) + 7 img.paste(daypercent_img, (x_offset, 0)) img.paste(daypercent2_img, (x_offset, 8)) img.paste(daychange_img, (x_offset,16)) img.paste(daychange2_img, (x_offset, 24)) except: pass except: pass image_list.append(stitchedStock) try: if all_crypto_settings['lohivol']: try: image_list.append(lohivol_img) except: pass except: pass try: if all_crypto_settings['chart'] and (cb in portfolio_settings): try: image_list.append(img) except: pass except: pass image_list.append(self.blank) except Exception as e: pass finalDisplayImage = self.stitchImage(image_list) return finalDisplayImage def getCryptoProfessional(self): self.blank = Image.new('RGB', (0, 16)) f = open('csv/crypto_settings.json', 'r') all_crypto_settings = json.load(f) f.close() if all_crypto_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/crypto.png') image_list = [title_img] image_list.append(self.blank) else: image_list = [] if all_crypto_settings['chart']: try: f = open('csv/portfolio_crypto_settings.json', 'r') portfolio_settings = json.load(f)['symbols'] f.close() except: pass try: if all_crypto_settings['display_name']: names = True else: names = False except: names = False pass coin_info = all_crypto_settings['symbols'] coin_bases = list(coin_info.keys()) for i, cb in enumerate(coin_bases): try: ticker, base = cb.split(',') current = float(coin_info[cb]["current"]) current_final = '{0:.10f}'.format(current).rstrip("0") change = float(coin_info[cb]["24hr_change"]) change2 = abs(change) changefinal = '{0:.10f}'.format(change2).rstrip("0") arrow, change = self.getArrow(change, professional=True) if all_crypto_settings["percent"]: # convert percent to points change = '%.2f' % abs(float(coin_info[cb]['percent_change'])) + '%' else: num3 = changefinal.split('.') if len(num3[1]) <= 1: change = '%.2f' % float(changefinal) else: change = str(changefinal) num2 = current_final.split('.') if len(num2[1]) <= 1: current = '%.2f' % float(current_final) else: current = str(current_final) if names: try: ticker = coin_info[cb]['name'].upper() + 'display_name' midFrame = self.textToImageProf(ticker, current, change, arrow, font=ImageFont.load("./fonts/6x10.pil")) #IMAGE THE TEXT except: ticker, base = cb.split(',') midFrame = self.textToImageProf(ticker + '(' + base + ')', current, change, arrow, font=ImageFont.load("./fonts/6x10.pil")) #IMAGE THE TEXT else: midFrame = self.textToImageProf(ticker + '(' + base + ')', current, change, arrow, font=ImageFont.load("./fonts/6x10.pil")) #IMAGE THE TEXT if all_crypto_settings['logos']: try: ticker, base = cb.split(',') logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'crypto') logo = self.openImage(os.path.join(logos_path, ticker + '.png')) w,h = logo.size logo=logo.resize((int(w/2), int(h/2))) stitchedStock = self.stitchImage([logo,midFrame]) except: stitchedStock = midFrame else: stitchedStock = midFrame try: if all_crypto_settings['lohivol']: font = ImageFont.load("./fonts/4x6.pil") try: day_low1 = '{0:.10f}'.format(float(coin_info[cb]['day_low'])).rstrip("0") day_high1 = '{0:.10f}'.format(float(coin_info[cb]['day_high'])).rstrip("0") day_low2 = day_low1.split('.') day_high2 = day_high1.split('.') if len(day_low2[1]) <= 1: day_low = '%.2f' % float(day_low1) else: day_low = day_low1 if len(day_high2[1]) <= 1: day_high = '%.2f' % float(day_high1) else: day_high = day_high1 volume = coin_info[cb]['volume'] daylow_img = self.textImage(day_low, font, r=0, g=255, b=0) daylow_t_img = self.textImage('Lo', font, r=255, g=255, b=255) dayhi_img = self.textImage(day_high, font, r=0,g=255,b=0) dayhi_t_img = self.textImage('Hi', font, r=255,g=255,b=255) vol_img = self.textImage(volume, font, r=0,g=255,b=0) vol_t_img = self.textImage('Vol', font, r=255,g=255,b=255) lohivol_img = Image.new('RGB', (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0]) + 2+vol_t_img.size[0] + vol_img.size[0] + 8, 16)) lohivol_img.paste(daylow_t_img, (0, 3)) lohivol_img.paste(daylow_img, (daylow_t_img.size[0],3)) lohivol_img.paste(dayhi_t_img, (0, 9)) lohivol_img.paste(dayhi_img, (dayhi_t_img.size[0], 9)) lohivol_img.paste(vol_t_img, (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0])+2, 3)) lohivol_img.paste(vol_img, (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0]) + 2+vol_t_img.size[0], 3)) except: pass except: pass try: if all_crypto_settings['chart'] and (cb in portfolio_settings): #IF USER INPUTTED PORTFOLIO SETTINGS, DISPLAY PORTFOLIO INFO try: cost = portfolio_settings[cb]['cost'] day = portfolio_settings[cb]['day'] day_start = datetime.strptime(str(day), "%Y-%m-%d") day_today = datetime.strptime(datetime.now(pytz.utc).strftime("%Y-%m-%d"), "%Y-%m-%d") day = str((day_today - day_start).days) shares = portfolio_settings[cb]['shares'] original_value = float(cost) * float(shares) new_value = float(coin_info[cb]['current']) * float(shares) value_day_change_percent = ((float(coin_info[cb]['percent_change'])/100) * new_value) font = ImageFont.load("./fonts/5x8.pil") cost_img = self.textImage('Cost', font, r = 255, g = 255 , b = 255) cost2_img = self.textImage(cost, font, r = 0, g = 255, b = 0) shares_img = self.textImage('Shares', font, r = 255, g = 255 , b = 255) shares2_img = self.textImage(shares, font, r = 0, g = 255, b = 0) pnlchange = new_value - original_value pnlpercent = ((new_value - original_value) / original_value) * 100 pnlpercent_img = self.textImage('P/L%', font, r = 255, g = 255 , b = 255) if pnlpercent >= 0: pnlpercent2_img = self.textImage(str('%.2f' % abs(pnlpercent)) + '%', font, r = 0, g = 255, b = 0) else: pnlpercent2_img = self.textImage(str('%.2f' % abs(pnlpercent)) + '%', font, r = 255, g = 0, b = 0) daypercent_img = self.textImage('Day%', font, r = 255, g = 255 , b = 255) if float(coin_info[cb]['percent_change']) >= 0: daypercent2_img = self.textImage(str('%.2f' % abs(float(coin_info[cb]['percent_change']))) +'%', font, r = 0, g = 255, b = 0) else: daypercent2_img = self.textImage(str('%.2f' % abs(float(coin_info[cb]['percent_change'])))+'%', font, r = 255, g = 0, b = 0) days_img = self.textImage('Days', font, r = 255, g = 255 , b = 255) days2_img = self.textImage(day, font, r = 0, g = 255, b = 0) value_img = self.textImage('Value', font, r = 255, g = 255 , b = 255) value2_img = self.textImage(str('%.2f' % abs(original_value)), font, r = 0, g = 255, b = 0) pnlchange_img = self.textImage('P/L$', font, r = 255, g = 255 , b = 255) if pnlchange >= 0: pnlchange2_img = self.textImage(str('%.2f' % abs(pnlchange)), font, r = 0, g = 255, b = 0) else: pnlchange2_img = self.textImage(str('%.2f' % abs(pnlchange)), font, r = 255, g = 0, b = 0) daychange_img = self.textImage('Day$', font, r = 255, g = 255 , b = 255) if value_day_change_percent >= 0: daychange2_img = self.textImage(str('%.2f' % abs(value_day_change_percent)), font, r = 0, g = 255, b = 0) else: daychange2_img = self.textImage(str('%.2f' % abs(value_day_change_percent)), font, r = 255, g = 0, b = 0) x_offset = 0 img = Image.new('RGB', (max(cost_img.size[0], cost2_img.size[0]) + 5 + max(days_img.size[0], days2_img.size[0]) + 5 + max(shares_img.size[0], shares2_img.size[0]) + 5 + max(value2_img.size[0], value_img.size[0]) + 5 + max(pnlpercent_img.size[0], pnlpercent2_img.size[0]) + 5 + max(pnlchange_img.size[0], pnlchange2_img.size[0]) + 5 + max(daypercent_img.size[0], daypercent2_img.size[0]) + 5 + max(daychange_img.size[0], daychange2_img.size[0]) + 10,16)) img.paste(cost_img, (x_offset, 1)) img.paste(cost2_img, (x_offset, 9)) x_offset += max(cost_img.size[0], cost2_img.size[0]) + 4 img.paste(days_img, (x_offset, 1)) img.paste(days2_img, (x_offset, 9)) x_offset += max(days_img.size[0], days2_img.size[0]) + 4 img.paste(shares_img, (x_offset, 1)) img.paste(shares2_img, (x_offset, 9)) x_offset += max(shares_img.size[0], shares2_img.size[0]) + 4 img.paste(value_img, (x_offset, 1)) img.paste(value2_img, (x_offset, 9)) x_offset += max(value2_img.size[0], value_img.size[0]) + 4 img.paste(pnlpercent_img, (x_offset, 1)) img.paste(pnlpercent2_img, (x_offset, 9)) x_offset += max(pnlpercent_img.size[0], pnlpercent2_img.size[0]) + 4 img.paste(pnlchange_img, (x_offset, 1)) img.paste(pnlchange2_img, (x_offset, 9)) x_offset += max(pnlchange_img.size[0], pnlchange2_img.size[0]) + 4 img.paste(daypercent_img, (x_offset, 1)) img.paste(daypercent2_img, (x_offset, 9)) x_offset += max(daypercent_img.size[0], daypercent2_img.size[0]) + 4 img.paste(daychange_img, (x_offset,1)) img.paste(daychange2_img, (x_offset, 9)) except: pass except: pass image_list.append(stitchedStock) try: if all_crypto_settings['lohivol']: try: image_list.append(lohivol_img) except: pass except: pass try: if all_crypto_settings['chart'] and (cb in portfolio_settings): try: image_list.append(img) except: pass except: pass image_list.append(self.blank) except Exception as e: pass finalDisplayImage = self.stitchImage(image_list) self.blank = Image.new('RGB', (10, 32)) return finalDisplayImage def getIndicesImage(self): f = open('csv/indices_settings.json', 'r') all_indices_settings = json.load(f) f.close() if all_indices_settings['title']: title_img = self.openImage('feature_titles/indices.png') image_list = [title_img] image_list.append(self.blank) else: image_list = [] index_info = all_indices_settings['symbols'] symbols = list(index_info.keys()) for i, symbol in enumerate(symbols): try: info = index_info[symbol] change = float(info['point_change']) #TEXT symb = symbol ticker = info['name'] #TEXT arrow, change = self.getArrow(change) point_change = '%.2f' % abs(change) percent_change = '%.2f' % abs(float(info['percent_change'])) + '%' # point_change2 = abs(change) # point_changefinal = '{0:.10f}'.format(point_change2).rstrip("0") # point_change = str(point_changefinal) current = '%.2f' % float(info['current']) # current_final = '{0:.10f}'.format(current).rstrip("0") # current = str(current_final) if not all_indices_settings['percent']: percent_change = False if not all_indices_settings['point']: point_change = False midFrame = self.textToImage(ticker, current, arrow, percent_change, point_change) #IMAGE THE TEXT if all_indices_settings['logos']: try: logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'indices') logo = self.openImage(os.path.join(logos_path, symb + '.png')) stitchedIndex = self.stitchImage([logo,midFrame]) except Exception as e: stitchedIndex = midFrame else: stitchedIndex = midFrame image_list.append(stitchedIndex) image_list.append(self.blank) except Exception as e: pass finalDisplayImage = self.stitchImage(image_list) return finalDisplayImage def getIndicesProfessional(self): self.blank = Image.new('RGB', (0, 16)) f = open('csv/indices_settings.json', 'r') all_indices_settings = json.load(f) f.close() if all_indices_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/indices.png') image_list = [title_img, Image.new('RGB', (5, 16))] image_list.append(self.blank) else: image_list = [] index_info = all_indices_settings['symbols'] symbols = list(index_info.keys()) for i, symbol in enumerate(symbols): try: info = index_info[symbol] change = float(info['point_change']) #TEXT symb = symbol ticker = info['name'] #TEXT arrow, change = self.getArrow(change, professional=True) if all_indices_settings["percent"]: change = '%.2f' % abs(float(info['percent_change'])) + '%' else: change = '%.2f' % abs(change) current = '%.2f' % float(info['current']) midFrame = self.textToImageProf(ticker, current, change, arrow, font=ImageFont.load("./fonts/6x10.pil")) #IMAGE THE TEXT if all_indices_settings['logos']: try: try: #load the tiny logo logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'tiny_indices') logo = Image.open(os.path.join(logos_path, ticker + '.png')) except: # load the big logo and scale it logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'indices') logo = Image.open(os.path.join(logos_path, symb + '.png')) # half the size of the logo width, height = logo.size logo = logo.resize((int(width/2), int(height/2))) stitchedIndex = self.stitchImage([logo,midFrame]) except Exception as e: stitchedIndex = midFrame else: stitchedIndex = midFrame image_list.append(stitchedIndex) image_list.append(self.blank) except Exception as e: pass finalDisplayImage = self.stitchImage(image_list) self.blank = Image.new('RGB', (10, 32)) return finalDisplayImage def getCommoditiesImage(self): f = open('csv/commodities_settings.json', 'r') all_commodities_settings = json.load(f) f.close() if all_commodities_settings['title']: title_img = self.openImage('feature_titles/commodities.png') image_list = [title_img] image_list.append(self.blank) else: image_list = [] commodity_info = all_commodities_settings['symbols'] symbols = list(commodity_info.keys()) for i, symbol in enumerate(symbols): try: info = commodity_info[symbol] change = float(info['24hr_change']) #TEXT ticker = symbol #TEXT unit = info['unit'] ticker = symbol + '(' + unit + ')' #TEXT arrow, change = self.getArrow(change) percent_change = '%.2f' % abs(float(info['percent_change'])) + '%' point_change2 = abs(change) point_changefinal = '{0:.10f}'.format(point_change2).rstrip("0") num3 = point_changefinal.split('.') if len(num3[1]) <= 1: point_change = '%.2f' % float(point_changefinal) else: point_change = str(point_changefinal) current = float(info["current"]) current_final = '{0:.10f}'.format(current).rstrip("0") num2 = current_final.split('.') if len(num2[1]) <= 1: current = '%.2f' % float(current_final) else: current = str(current_final) if not all_commodities_settings['percent']: percent_change = False if not all_commodities_settings['point']: point_change = False midFrame = self.textToImage(ticker, current, arrow, percent_change, point_change) #IMAGE THE TEXT if all_commodities_settings['logos']: try: logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'commodities') logo = self.openImage(os.path.join(logos_path, ticker + '.png')) stitchedCommodity = self.stitchImage([logo,midFrame]) except Exception as e: stitchedCommodity = midFrame else: stitchedCommodity = midFrame image_list.append(stitchedCommodity) image_list.append(self.blank) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() finalDisplayImage = self.stitchImage(image_list) return finalDisplayImage def getCommoditiesProfessional(self): self.blank = Image.new('RGB', (0, 16)) f = open('csv/commodities_settings.json', 'r') all_commodities_settings = json.load(f) f.close() if all_commodities_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/commodities.png') image_list = [title_img, Image.new('RGB', (5, 16))] image_list.append(self.blank) else: image_list = [] commodity_info = all_commodities_settings['symbols'] symbols = list(commodity_info.keys()) for i, symbol in enumerate(symbols): try: info = commodity_info[symbol] change = float(info['24hr_change']) #TEXT unit = info['unit'] ticker = symbol + '(' + unit + ')' #TEXT arrow, change = self.getArrow(change, professional=True) if all_commodities_settings["percent"]: change = '%.2f' % abs(float(info['percent_change'])) + '%' else: point_change2 = abs(change) point_changefinal = '{0:.10f}'.format(point_change2).rstrip("0") num3 = point_changefinal.split('.') if len(num3[1]) <= 1: change = '%.2f' % float(point_changefinal) else: change = str(point_changefinal) current = float(info["current"]) current_final = '{0:.10f}'.format(current).rstrip("0") num2 = current_final.split('.') if len(num2[1]) <= 1: current = '%.2f' % float(current_final) else: current = str(current_final) midFrame = self.textToImageProf(ticker, current, change, arrow, font=ImageFont.load("./fonts/6x10.pil")) #IMAGE THE TEXT if all_commodities_settings['logos']: try: try: #load the tiny logo logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'tiny_commodities') logo = Image.open(os.path.join(logos_path, ticker + '.png')) except: # load the big logo and scale it logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'commodities') logo = Image.open(os.path.join(logos_path, ticker + '.png')) # half the size of the logo width, height = logo.size logo = logo.resize((int(width/2), int(height/2))) stitchedCommodity = self.stitchImage([logo,midFrame]) except Exception as e: stitchedCommodity = midFrame else: stitchedCommodity = midFrame image_list.append(stitchedCommodity) image_list.append(self.blank) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() finalDisplayImage = self.stitchImage(image_list) self.blank = Image.new('RGB', (10, 32)) return finalDisplayImage def getForexImage(self): f = open('csv/forex_settings.json', 'r') all_forex_settings = json.load(f) f.close() if all_forex_settings['title']: title_img = self.openImage('feature_titles/forex.png') image_list = [title_img] image_list.append(self.blank) else: image_list = [] forex_settings = all_forex_settings['symbols'] symbol_bases = list(forex_settings.keys()) for i, sb in enumerate(symbol_bases): try: symbol, base = sb.split(',') current = float(forex_settings[sb]['current']) current_final = '{0:.10f}'.format(current).rstrip("0") change = float(forex_settings[sb]['24hr_change']) change2 = abs(change) changefinal = '{0:.10f}'.format(change2).rstrip("0") percent_change = '%.2f' % abs(float(forex_settings[sb]['percent_change'])) +'%' point_change = str(changefinal) if not all_forex_settings['percent']: percent_change = False if not all_forex_settings['point']: point_change = False arrow, change = self.getArrow(change) current = str(current_final) midFrame = self.textToImage(symbol+ '(' + base + ')', current, arrow, percent_change, point_change) #IMAGE THE TEXT if all_forex_settings['logos']: try: logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'currencies') logo = Image.open(os.path.join(logos_path, symbol.upper() + '.png')) bse = Image.open(os.path.join(logos_path, base.upper() + '.png')) new_im = Image.new('RGB', (32, 32)) new_im.paste(bse, (0,10), bse.convert('RGBA')) new_im.paste(logo, (10,0), logo.convert('RGBA')) stitchedStock = self.stitchImage([new_im, midFrame]) image_list.append(new_im) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() image_list.append(midFrame) image_list.append(self.blank) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() finalDisplayImage = self.stitchImage(image_list) return finalDisplayImage def getForexProfessional(self): self.blank = Image.new('RGB', (0, 16)) f = open('csv/forex_settings.json', 'r') all_forex_settings = json.load(f) f.close() if all_forex_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/forex.png') image_list = [title_img] image_list.append(self.blank) else: image_list = [] forex_settings = all_forex_settings['symbols'] symbol_bases = list(forex_settings.keys()) for i, sb in enumerate(symbol_bases): try: symbol, base = sb.split(',') current = float(forex_settings[sb]['current']) current_final = '{0:.10f}'.format(current).rstrip("0") change = float(forex_settings[sb]['24hr_change']) change2 = abs(change) changefinal = '{0:.10f}'.format(change2).rstrip("0") arrow, change = self.getArrow(change, professional = True) if all_forex_settings["percent"]: change = abs(float(forex_settings[sb]['percent_change'])) change = '%.2f' % change + '%' else: change = str(changefinal) current = str(current_final) midFrame = self.textToImageProf(symbol + '(' + base + ')', current, change, arrow, font = ImageFont.load("./fonts/6x10.pil")) #IMAGE THE TEXT if all_forex_settings['logos']: try: logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'currencies') logo = Image.open(os.path.join(logos_path, symbol.upper() + '.png')) bse = Image.open(os.path.join(logos_path, base.upper() + '.png')) new_im = Image.new('RGB', (32, 32)) new_im.paste(bse, (0,10), bse.convert('RGBA')) new_im.paste(logo, (10,0), logo.convert('RGBA')) width, height = new_im.size new_im = new_im.resize((int(width/2), int(height/2))) stitchedStock = self.stitchImage([new_im, midFrame]) image_list.append(new_im) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() image_list.append(midFrame) image_list.append(self.blank) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() finalDisplayImage = self.stitchImage(image_list) self.blank = Image.new('RGB', (10, 32)) return finalDisplayImage def getStockImage(self): f = open('csv/stocks_settings.json', 'r') all_stocks_settings = json.load(f) f.close() if all_stocks_settings['title']: title_img = self.openImage('feature_titles/stocks.png') image_list = [title_img] image_list.append(self.blank) else: image_list = [] if all_stocks_settings['chart']: try: f = open('csv/portfolio_settings.json', 'r') portfolio_settings = json.load(f)['symbols'] f.close() except: pass try: if all_stocks_settings['prepost']: try: f = open('csv/prepost_settings.json', 'r') prepost_settings = json.load(f) f.close() except: pass except: pass try: if all_stocks_settings['display_name']: names = True else: names = False except: names = False pass stock_info = all_stocks_settings['symbols'] symbols = list(stock_info.keys()) timenow = datetime.now(ny_zone).replace(tzinfo=None).strftime("%H:%M:%S") weekday = datetime.now(ny_zone).replace(tzinfo=None).weekday() for i, symbol in enumerate(symbols): try: info = stock_info[symbol] change = float(info['change']) #TEXT if names: try: ticker = info['name'].upper() #TEXT except: ticker = symbol else: ticker = symbol arrow, change = self.getArrow(change) percent_change = '%.2f' % abs(float(info['percent_change'])) + '%' point_change = '%.2f' % abs(change) current = '%.2f' % float(info['current']) #TEXT if not all_stocks_settings['percent']: percent_change = False if not all_stocks_settings['point']: point_change = False midFrame = self.textToImage(ticker, current, arrow, percent_change, point_change) #IMAGE THE TEXT if all_stocks_settings['logos']: try: ticker = symbol logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'stocks') logo = self.openImage(os.path.join(logos_path, ticker + '.png')) stitchedStock = self.stitchImage([logo,midFrame]) except Exception as e: stitchedStock = midFrame else: stitchedStock = midFrame try: if all_stocks_settings['lohivol']: font = ImageFont.load("./fonts/5x8.pil") try: day_low = '%.2f' % float(info['day_low']) day_high = '%.2f' % float(info['day_high']) volume = info['volume'] daylow_img = self.textImage(day_low, font, r=0, g=255, b=0) daylow_t_img = self.textImage('Lo', font, r=255, g=255, b=255) dayhi_img = self.textImage(day_high, font, r=0,g=255,b=0) dayhi_t_img = self.textImage('Hi', font, r=255,g=255,b=255) vol_img = self.textImage(volume, font, r=0,g=255,b=0) vol_t_img = self.textImage('Vol', font, r=255,g=255,b=255) lohivol_img = Image.new('RGB', (max(daylow_img.size[0] + daylow_t_img.size[0], dayhi_img.size[0] + dayhi_t_img.size[0], vol_img.size[0] + vol_t_img.size[0]) + 5, 32)) lohivol_img.paste(daylow_t_img, (0, 3)) lohivol_img.paste(daylow_img, (daylow_t_img.size[0],3)) lohivol_img.paste(dayhi_t_img, (0, 12)) lohivol_img.paste(dayhi_img, (dayhi_t_img.size[0], 12)) lohivol_img.paste(vol_t_img, (0, 21)) lohivol_img.paste(vol_img, (vol_t_img.size[0], 21)) except: pass except: pass try: if all_stocks_settings['prepost']: font = ImageFont.load("./fonts/6x13.pil") time_font = ImageFont.load("./fonts/5x8.pil") prepost_time = prepost_settings[symbol]['time_now'] if ((timenow < "09:30:00" and timenow > "04:00:00") and (weekday <= 4)): #premarket try: preprice = '%.2f' % abs(float(prepost_settings[symbol]['Pre-market']['preprice'])) prechange = '%.2f' % abs(float(prepost_settings[symbol]['Pre-market']['prechange'])) prepercent = '%.2f' % abs(float(prepost_settings[symbol]['Pre-market']['prepercent'])) premkt_img = self.textImage('Pre-Mkt', font, r=255, g=255, b=255) if '-' in prepost_settings[symbol]['Pre-market']['prechange']: preprice_img = self.textImage(preprice, font, r = 255, g = 0 , b = 0) prechange_img = self.textImage(prechange, font, r = 255, g = 0, b = 0) prepercent_img = self.textImage('('+prepercent + '%' + ')', font, r=255, g=0, b=0) arrow = Image.open('logos/down-tiny.png') elif prepost_settings[symbol]['Pre-market']['prechange'] == '0.00': preprice_img = self.textImage(preprice, font, r = 200, g = 200 , b = 200) prechange_img = self.textImage(prechange, font, r = 200, g = 200, b = 200) prepercent_img = self.textImage('('+prepercent + '%' + ')', font, r=200, g=200, b=200) arrow = Image.open('logos/up-tiny2.png') else: preprice_img = self.textImage(preprice, font, r = 0, g = 255 , b = 0) prechange_img = self.textImage(prechange, font, r = 0, g = 255, b = 0) prepercent_img = self.textImage('('+prepercent + '%' + ')', font, r=0, g=255, b=0) arrow = Image.open('logos/up-tiny.png') time_img = self.textImage(prepost_time, time_font, r=255,g=255,b=255) prepost_img = Image.new('RGB', (10 + max(premkt_img.size[0] + prepercent_img.size[0], preprice_img.size[0] + 3 + prechange_img.size[0] + arrow.size[0]),32)) prepost_img.paste(premkt_img, (0,0)) prepost_img.paste(prepercent_img, (premkt_img.size[0], 1)) prepost_img.paste(preprice_img,(0,12)) prepost_img.paste(time_img, (0, 24)) prepost_img.paste(arrow, (preprice_img.size[0],18)) prepost_img.paste(prechange_img, (preprice_img.size[0] + arrow.size[0] + 3,12)) except: pass elif ((timenow < "04:00:00" or timenow > "16:00:00") and (weekday <= 4)) or (weekday > 4): #postmarket try: postprice = '%.2f' % abs(float(prepost_settings[symbol]['Post-market']['postprice'])) postchange = '%.2f' % abs(float(prepost_settings[symbol]['Post-market']['postchange'])) postpercent = '%.2f' % abs(float(prepost_settings[symbol]['Post-market']['postpercent'])) postmkt_img = self.textImage('After-Hrs', font, r=255, g=255, b=255) if '-' in prepost_settings[symbol]['Post-market']['postchange']: postprice_img = self.textImage(postprice, font, r = 255, g = 0, b = 0) postchange_img = self.textImage(postchange, font, r = 255, g = 0, b = 0) postpercent_img = self.textImage('('+postpercent +'%'+')', font, r=255, g=0, b=0) arrow = Image.open('logos/down-tiny.png') elif prepost_settings[symbol]['Post-market']['postchange'] == '0.00': postprice_img = self.textImage(postprice, font, r = 200, g = 200 , b = 200) postchange_img = self.textImage(postchange, font, r = 200, g = 200, b = 200) postpercent_img = self.textImage('('+postpercent + '%' + ')', font, r=200, g=200, b=200) arrow = Image.open('logos/up-tiny2.png') else: postprice_img = self.textImage(postprice, font, r =0, g = 255 , b = 0) postchange_img = self.textImage(postchange, font, r = 0, g = 255, b = 0) postpercent_img = self.textImage('(' + postpercent + '%'+')', font, r=0, g=255, b=0) arrow = Image.open('logos/up-tiny.png') time_img = self.textImage(prepost_time, time_font, r=255,g=255,b=255) prepost_img = Image.new('RGB', (10 + max(postmkt_img.size[0] + postpercent_img.size[0], postprice_img.size[0] + 3 + postchange_img.size[0] + arrow.size[0]) , 32)) prepost_img.paste(postmkt_img, (0,0)) prepost_img.paste(postpercent_img, (postmkt_img.size[0], 1)) prepost_img.paste(postprice_img,(0,12)) prepost_img.paste(time_img, (0, 24)) prepost_img.paste(arrow, (postprice_img.size[0],18)) prepost_img.paste(postchange_img, (postprice_img.size[0] + arrow.size[0] + 3,12)) except: pass except: pass try: if all_stocks_settings['chart'] and (symbol in portfolio_settings): #IF USER INPUTTED PORTFOLIO SETTINGS, DISPLAY PORTFOLIO INFO try: cost = portfolio_settings[symbol]['cost'] day = portfolio_settings[symbol]['day'] day_start = datetime.strptime(str(day), "%Y-%m-%d") day_today = datetime.strptime(datetime.now(pytz.utc).strftime("%Y-%m-%d"), "%Y-%m-%d") day = str((day_today - day_start).days) shares = portfolio_settings[symbol]['shares'] original_value = float(cost) * float(shares) new_value = float(info['current']) * float(shares) value_day_change_percent = ((float(info['percent_change'])/100) * new_value) font = ImageFont.load("./fonts/5x8.pil") cost_img = self.textImage('Cost', font, r = 255, g = 255 , b = 255) cost2_img = self.textImage(cost, font, r = 0, g = 255, b = 0) shares_img = self.textImage('Shares', font, r = 255, g = 255 , b = 255) shares2_img = self.textImage(shares, font, r = 0, g = 255, b = 0) pnlchange = new_value - original_value pnlpercent = ((new_value - original_value) / original_value) * 100 pnlpercent_img = self.textImage('P/L%', font, r = 255, g = 255 , b = 255) if pnlpercent >= 0: pnlpercent2_img = self.textImage(str('%.2f' % abs(pnlpercent)) + '%', font, r = 0, g = 255, b = 0) else: pnlpercent2_img = self.textImage(str('%.2f' % abs(pnlpercent)) + '%', font, r = 255, g = 0, b = 0) daypercent_img = self.textImage('Day%', font, r = 255, g = 255 , b = 255) if float(info['percent_change']) >= 0: daypercent2_img = self.textImage(str('%.2f' % abs(float(info['percent_change']))) +'%', font, r = 0, g = 255, b = 0) else: daypercent2_img = self.textImage(str('%.2f' % abs(float(info['percent_change'])))+'%', font, r = 255, g = 0, b = 0) days_img = self.textImage('Days', font, r = 255, g = 255 , b = 255) days2_img = self.textImage(day, font, r = 0, g = 255, b = 0) value_img = self.textImage('Value', font, r = 255, g = 255 , b = 255) value2_img = self.textImage(str('%.2f' % abs(original_value)), font, r = 0, g = 255, b = 0) pnlchange_img = self.textImage('P/L$', font, r = 255, g = 255 , b = 255) if pnlchange >= 0: pnlchange2_img = self.textImage(str('%.2f' % abs(pnlchange)), font, r = 0, g = 255, b = 0) else: pnlchange2_img = self.textImage(str('%.2f' % abs(pnlchange)), font, r = 255, g = 0, b = 0) daychange_img = self.textImage('Day$', font, r = 255, g = 255 , b = 255) if value_day_change_percent >= 0: daychange2_img = self.textImage(str('%.2f' % abs(value_day_change_percent)), font, r = 0, g = 255, b = 0) else: daychange2_img = self.textImage(str('%.2f' % abs(value_day_change_percent)), font, r = 255, g = 0, b = 0) x_offset = 0 img = Image.new('RGB', (max(cost_img.size[0], cost2_img.size[0], days_img.size[0], days2_img.size[0]) + 7 + max(shares_img.size[0], shares2_img.size[0], value2_img.size[0], value_img.size[0]) + 7 + max(pnlpercent_img.size[0], pnlpercent2_img.size[0], pnlchange_img.size[0], pnlchange2_img.size[0]) + 7 + max(daypercent_img.size[0], daypercent2_img.size[0], daychange_img.size[0], daychange2_img.size[0]) + 15, 32)) img.paste(cost_img, (x_offset, 0)) img.paste(cost2_img, (x_offset, 8)) img.paste(days_img, (x_offset, 16)) img.paste(days2_img, (x_offset, 24)) x_offset += max(cost_img.size[0], cost2_img.size[0], days_img.size[0], days2_img.size[0]) + 7 img.paste(shares_img, (x_offset, 0)) img.paste(shares2_img, (x_offset, 8)) img.paste(value_img, (x_offset, 16)) img.paste(value2_img, (x_offset, 24)) x_offset += max(shares_img.size[0], shares2_img.size[0], value2_img.size[0], value_img.size[0]) + 7 img.paste(pnlpercent_img, (x_offset, 0)) img.paste(pnlpercent2_img, (x_offset, 8)) img.paste(pnlchange_img, (x_offset, 16)) img.paste(pnlchange2_img, (x_offset, 24)) x_offset += max(pnlpercent_img.size[0], pnlpercent2_img.size[0], pnlchange_img.size[0], pnlchange2_img.size[0]) + 7 img.paste(daypercent_img, (x_offset, 0)) img.paste(daypercent2_img, (x_offset, 8)) img.paste(daychange_img, (x_offset,16)) img.paste(daychange2_img, (x_offset, 24)) except: pass except: pass image_list.append(stitchedStock) try: if all_stocks_settings['lohivol']: try: image_list.append(lohivol_img) except: pass except: pass try: if all_stocks_settings['prepost']: try: image_list.append(prepost_img) except: pass except: pass try: if all_stocks_settings['chart'] and (symbol in portfolio_settings): try: image_list.append(img) except: pass except: pass image_list.append(self.blank) except Exception as e: pass finalDisplayImage = self.stitchImage(image_list) return finalDisplayImage def getStockProfessional(self): self.blank = Image.new('RGB', (0, 16)) f = open('csv/stocks_settings.json', 'r') all_stocks_settings = json.load(f) f.close() if all_stocks_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/stocks.png') image_list = [title_img, Image.new('RGB', (5, 16))] image_list.append(self.blank) else: image_list = [] if all_stocks_settings['chart']: try: f = open('csv/portfolio_settings.json', 'r') portfolio_settings = json.load(f)['symbols'] f.close() except: pass try: if all_stocks_settings['prepost']: try: f = open('csv/prepost_settings.json', 'r') prepost_settings = json.load(f) f.close() except: pass except: pass try: if all_stocks_settings['display_name']: names = True else: names = False except: names = False pass stock_info = all_stocks_settings['symbols'] symbols = list(stock_info.keys()) timenow = datetime.now(ny_zone).replace(tzinfo=None).strftime("%H:%M:%S") weekday = datetime.now(ny_zone).replace(tzinfo=None).weekday() for i, symbol in enumerate(symbols): try: info = stock_info[symbol] change = float(info['change'])#TEXT if names: try: ticker = info['name'].upper() + 'display_name' #TEXT except: ticker = symbol else: ticker = symbol arrow, change = self.getArrow(change, professional=True) if all_stocks_settings["percent"]: change = '%.2f' % abs(float(info['percent_change'])) + '%' else: change = '%.2f' % abs(change) current = '%.2f' % float(info['current']) #TEXT midFrame = self.textToImageProf(ticker, current, change, arrow, font=ImageFont.load("./fonts/6x10.pil")) #IMAGE THE TEXT if all_stocks_settings['logos']: ticker = symbol try: try: #load the tiny logo logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'tiny_stocks') logo = Image.open(os.path.join(logos_path, ticker + '.png')) except: # load the big logo and scale it logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'stocks') logo = Image.open(os.path.join(logos_path, ticker + '.png')) # half the size of the logo width, height = logo.size logo = logo.resize((int(width/2), int(height/2))) stitchedStock = self.stitchImage([logo,midFrame]) except Exception as e: stitchedStock = midFrame else: stitchedStock = midFrame try: if all_stocks_settings['lohivol']: font = ImageFont.load("./fonts/4x6.pil") try: day_low = '%.2f' % float(info['day_low']) day_high = '%.2f' % float(info['day_high']) volume = info['volume'] daylow_img = self.textImage(day_low, font, r=0, g=255, b=0) daylow_t_img = self.textImage('Lo', font, r=255, g=255, b=255) dayhi_img = self.textImage(day_high, font, r=0,g=255,b=0) dayhi_t_img = self.textImage('Hi', font, r=255,g=255,b=255) vol_img = self.textImage(volume, font, r=0,g=255,b=0) vol_t_img = self.textImage('Vol', font, r=255,g=255,b=255) lohivol_img = Image.new('RGB', (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0]) + 2+vol_t_img.size[0] + vol_img.size[0] + 8, 16)) lohivol_img.paste(daylow_t_img, (0, 3)) lohivol_img.paste(daylow_img, (daylow_t_img.size[0],3)) lohivol_img.paste(dayhi_t_img, (0, 9)) lohivol_img.paste(dayhi_img, (dayhi_t_img.size[0], 9)) lohivol_img.paste(vol_t_img, (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0])+2, 3)) lohivol_img.paste(vol_img, (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0]) + 2+vol_t_img.size[0], 3)) except: pass except: pass try: if all_stocks_settings['prepost']: font = ImageFont.load("./fonts/5x8.pil") # prepost_time = prepost_settings[symbol]['time_now'] if ((timenow < "09:30:00" and timenow > "04:00:00") and (weekday <= 4)): #premarket try: preprice = '%.2f' % abs(float(prepost_settings[symbol]['Pre-market']['preprice'])) prechange = '%.2f' % abs(float(prepost_settings[symbol]['Pre-market']['prechange'])) prepercent = '%.2f' % abs(float(prepost_settings[symbol]['Pre-market']['prepercent'])) premkt_img = self.textImage('Pre-Mkt', font, r=255, g=255, b=255) if '-' in prepost_settings[symbol]['Pre-market']['prechange']: preprice_img = self.textImage(preprice, font, r = 255, g = 0 , b = 0) prechange_img = self.textImage(prechange, font, r = 255, g = 0, b = 0) prepercent_img = self.textImage('('+prepercent + '%' + ')', font, r=255, g=0, b=0) arrow = Image.open('logos/down-tiny.png') elif prepost_settings[symbol]['Pre-market']['prechange'] == '0.00': preprice_img = self.textImage(preprice, font, r = 200, g = 200 , b = 200) prechange_img = self.textImage(prechange, font, r = 200, g = 200, b = 200) prepercent_img = self.textImage('('+prepercent + '%' + ')', font, r=200, g=200, b=200) arrow = Image.open('logos/up-tiny2.png') else: preprice_img = self.textImage(preprice, font, r = 0, g = 255 , b = 0) prechange_img = self.textImage(prechange, font, r = 0, g = 255, b = 0) prepercent_img = self.textImage('('+prepercent + '%' + ')', font, r=0, g=255, b=0) arrow = Image.open('logos/up-tiny.png') # time_img = self.textImage(prepost_time, font, r=255,g=255,b=255) prepost_img = Image.new('RGB', (max(premkt_img.size[0] + prepercent_img.size[0], preprice_img.size[0] + 2 + prechange_img.size[0] + arrow.size[0]) + 10, 16)) prepost_img.paste(premkt_img, (0,0)) prepost_img.paste(prepercent_img, (premkt_img.size[0], 0)) prepost_img.paste(preprice_img,(0,7)) # prepost_img.paste(time_img, (preprice_img.size[0] + prechange_img.size[0] + 2 + arrow.size[0], 8)) prepost_img.paste(arrow, (preprice_img.size[0],10)) prepost_img.paste(prechange_img, (preprice_img.size[0] + arrow.size[0] + 2,7)) except: pass elif ((timenow < "04:00:00" or timenow > "16:00:00") and (weekday <= 4)) or (weekday > 4): #postmarket try: postprice = '%.2f' % abs(float(prepost_settings[symbol]['Post-market']['postprice'])) postchange = '%.2f' % abs(float(prepost_settings[symbol]['Post-market']['postchange'])) postpercent = '%.2f' % abs(float(prepost_settings[symbol]['Post-market']['postpercent'])) postmkt_img = self.textImage('After-Hrs', font, r=255, g=255, b=255) if '-' in prepost_settings[symbol]['Post-market']['postchange']: postprice_img = self.textImage(postprice, font, r = 255, g = 0, b = 0) postchange_img = self.textImage(postchange, font, r = 255, g = 0, b = 0) postpercent_img = self.textImage('('+postpercent +'%'+')', font, r=255, g=0, b=0) arrow = Image.open('logos/down-tiny.png') elif prepost_settings[symbol]['Post-market']['postchange'] == '0.00': postprice_img = self.textImage(postprice, font, r = 200, g = 200, b = 200) postchange_img = self.textImage(postchange, font, r = 200, g = 200, b = 200) postpercent_img = self.textImage('('+postpercent +'%'+')', font, r=200, g=200, b=200) arrow = Image.open('logos/up-tiny2.png') else: postprice_img = self.textImage(postprice, font, r =0, g = 255 , b = 0) postchange_img = self.textImage(postchange, font, r = 0, g = 255, b = 0) postpercent_img = self.textImage('(' + postpercent + '%'+')', font, r=0, g=255, b=0) arrow = Image.open('logos/up-tiny.png') #time_img = self.textImage(prepost_time, font, r=255,g=255,b=255) prepost_img = Image.new('RGB', (10 + max(postmkt_img.size[0] + postpercent_img.size[0], postprice_img.size[0] + 2 + postchange_img.size[0] + arrow.size[0]) , 16)) prepost_img.paste(postmkt_img, (0,0)) prepost_img.paste(postpercent_img, (postmkt_img.size[0], 0)) prepost_img.paste(postprice_img,(0,7)) #prepost_img.paste(time_img, (0, 12)) prepost_img.paste(arrow, (postprice_img.size[0],10)) prepost_img.paste(postchange_img, (postprice_img.size[0] + arrow.size[0] + 2,7)) except: pass except: pass try: if all_stocks_settings['chart'] and (symbol in portfolio_settings): #IF USER INPUTTED PORTFOLIO SETTINGS, DISPLAY PORTFOLIO INFO try: cost = portfolio_settings[symbol]['cost'] day = portfolio_settings[symbol]['day'] day_start = datetime.strptime(str(day), "%Y-%m-%d") day_today = datetime.strptime(datetime.now(pytz.utc).strftime("%Y-%m-%d"), "%Y-%m-%d") day = str((day_today - day_start).days) shares = portfolio_settings[symbol]['shares'] original_value = float(cost) * float(shares) new_value = float(info['current']) * float(shares) value_day_change_percent = ((float(info['percent_change'])/100) * new_value) font = ImageFont.load("./fonts/5x8.pil") cost_img = self.textImage('Cost', font, r = 255, g = 255 , b = 255) cost2_img = self.textImage(cost, font, r = 0, g = 255, b = 0) shares_img = self.textImage('Shares', font, r = 255, g = 255 , b = 255) shares2_img = self.textImage(shares, font, r = 0, g = 255, b = 0) pnlchange = new_value - original_value pnlpercent = ((new_value - original_value) / original_value) * 100 pnlpercent_img = self.textImage('P/L%', font, r = 255, g = 255 , b = 255) if pnlpercent >= 0: pnlpercent2_img = self.textImage(str('%.2f' % abs(pnlpercent)) + '%', font, r = 0, g = 255, b = 0) else: pnlpercent2_img = self.textImage(str('%.2f' % abs(pnlpercent)) + '%', font, r = 255, g = 0, b = 0) daypercent_img = self.textImage('Day%', font, r = 255, g = 255 , b = 255) if float(info['percent_change']) >= 0: daypercent2_img = self.textImage(str('%.2f' % abs(float(info['percent_change']))) +'%', font, r = 0, g = 255, b = 0) else: daypercent2_img = self.textImage(str('%.2f' % abs(float(info['percent_change'])))+'%', font, r = 255, g = 0, b = 0) days_img = self.textImage('Days', font, r = 255, g = 255 , b = 255) days2_img = self.textImage(day, font, r = 0, g = 255, b = 0) value_img = self.textImage('Value', font, r = 255, g = 255 , b = 255) value2_img = self.textImage(str('%.2f' % abs(original_value)), font, r = 0, g = 255, b = 0) pnlchange_img = self.textImage('P/L$', font, r = 255, g = 255 , b = 255) if pnlchange >= 0: pnlchange2_img = self.textImage(str('%.2f' % abs(pnlchange)), font, r = 0, g = 255, b = 0) else: pnlchange2_img = self.textImage(str('%.2f' % abs(pnlchange)), font, r = 255, g = 0, b = 0) daychange_img = self.textImage('Day$', font, r = 255, g = 255 , b = 255) if value_day_change_percent >= 0: daychange2_img = self.textImage(str('%.2f' % abs(value_day_change_percent)), font, r = 0, g = 255, b = 0) else: daychange2_img = self.textImage(str('%.2f' % abs(value_day_change_percent)), font, r = 255, g = 0, b = 0) x_offset = 0 img = Image.new('RGB', (max(cost_img.size[0], cost2_img.size[0]) + 5 + max(days_img.size[0], days2_img.size[0]) + 5 + max(shares_img.size[0], shares2_img.size[0]) + 5 + max(value2_img.size[0], value_img.size[0]) + 5 + max(pnlpercent_img.size[0], pnlpercent2_img.size[0]) + 5 + max(pnlchange_img.size[0], pnlchange2_img.size[0]) + 5 + max(daypercent_img.size[0], daypercent2_img.size[0]) + 5 + max(daychange_img.size[0], daychange2_img.size[0]) + 10,16)) img.paste(cost_img, (x_offset, 1)) img.paste(cost2_img, (x_offset, 9)) x_offset += max(cost_img.size[0], cost2_img.size[0]) + 4 img.paste(days_img, (x_offset, 1)) img.paste(days2_img, (x_offset, 9)) x_offset += max(days_img.size[0], days2_img.size[0]) + 4 img.paste(shares_img, (x_offset, 1)) img.paste(shares2_img, (x_offset, 9)) x_offset += max(shares_img.size[0], shares2_img.size[0]) + 4 img.paste(value_img, (x_offset, 1)) img.paste(value2_img, (x_offset, 9)) x_offset += max(value2_img.size[0], value_img.size[0]) + 4 img.paste(pnlpercent_img, (x_offset, 1)) img.paste(pnlpercent2_img, (x_offset, 9)) x_offset += max(pnlpercent_img.size[0], pnlpercent2_img.size[0]) + 4 img.paste(pnlchange_img, (x_offset, 1)) img.paste(pnlchange2_img, (x_offset, 9)) x_offset += max(pnlchange_img.size[0], pnlchange2_img.size[0]) + 4 img.paste(daypercent_img, (x_offset, 1)) img.paste(daypercent2_img, (x_offset, 9)) x_offset += max(daypercent_img.size[0], daypercent2_img.size[0]) + 4 img.paste(daychange_img, (x_offset,1)) img.paste(daychange2_img, (x_offset, 9)) except: pass except: pass image_list.append(stitchedStock) try: if all_stocks_settings['lohivol']: try: image_list.append(lohivol_img) except: pass except: pass try: if all_stocks_settings['prepost']: try: image_list.append(prepost_img) except: pass except: pass try: if all_stocks_settings['chart'] and (symbol in portfolio_settings): try: image_list.append(img) except: pass except: pass image_list.append(self.blank) except Exception as e: pass finalDisplayImage = self.stitchImage(image_list) self.blank = Image.new('RGB', (10, 32)) return finalDisplayImage def getNewsImage(self): f = open('csv/news_settings.json', 'r') all_settings = json.load(f) f.close() if all_settings['title']: title_img = self.openImage('feature_titles/news.png') image_list = [title_img] else: image_list = [] headline_font = ImageFont.load("./fonts/6x13.pil") source_font = ImageFont.load("./fonts/6x13.pil") headline_info = all_settings['headlines'] headlines = [] source_date_times = [] source = [] for i, hi in enumerate(headline_info): try: headline, source, date_time = hi date, time = date_time.split('T') time = time[:-1] source_date_time = source + ': ' + date + ' ' + time headline = headline.replace("^", ",") headline = headline.replace("’", "'") headline = headline.replace("‘", "'") headline = headline.replace('“', '"') headline = headline.replace('”', '"') headline = headline.replace('—', '-') headline = headline.replace('–', '-') headline = ''.join([h for h in headline if ord(h) < 256]) lst = headline.rsplit('-', 1) #remove source name at end of headline headline = lst[0] headline_img = self.textImage(headline, headline_font, matrix_height = True) source_img = self.textImage(source_date_time, source_font, r=255, g=255, b=0, matrix_height = True) try: logo_name = source.lower().replace(' ', '-') logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'news_logos') logo = Image.open(os.path.join(logos_path, logo_name + '.png')) except Exception as e: logo_name = 'default' logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'news_logos') logo = Image.open(os.path.join(logos_path, logo_name + '.png')) img = Image.new('RGB', (headline_img.size[0], 32)) img.paste(headline_img, (2, 0)) img.paste(source_img, (2,16)) img= self.stitchImage([logo,img]) image_list.append(img) image_list.append(self.blank) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() news_image = self.stitchImage(image_list) return news_image def getNewsProfessional(self): f = open('csv/news_settings.json', 'r') all_settings = json.load(f) f.close() if all_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/news.png') image_list = [title_img] else: image_list = [] headline_font = ImageFont.load("./fonts/6x13.pil") source_font = ImageFont.load("./fonts/6x13.pil") headline_info = all_settings['headlines'] headlines = [] source_date_times = [] source = [] blank = Image.new('RGB', (0, 16)) for i, hi in enumerate(headline_info): try: headline, source, date_time = hi date, time = date_time.split('T') time = time[:-1] source_date_time = source + ': ' + date + ' ' + time headline = headline.replace("^", ",") headline = headline.replace("’", "'") headline = headline.replace("‘", "'") headline = headline.replace('“', '"') headline = headline.replace('”', '"') headline = headline.replace('—', '-') headline = headline.replace('–', '-') headline = ''.join([h for h in headline if ord(h) < 256]) lst = headline.rsplit('-', 1) #remove source name at end of headline headline = lst[0] headline_img = self.textImage(headline, headline_font, matrix_height = True) source_img = self.textImage(source_date_time+ ':', source_font, r=255, g=255, b=0, matrix_height = True) try: logo_name = source.lower().replace(' ', '-') logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'tiny_news') logo = Image.open(os.path.join(logos_path, logo_name + '.png')) except Exception as e: logo_name = 'default' logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'tiny_news') logo = Image.open(os.path.join(logos_path, logo_name + '.png')) width, height = logo.size #logo = logo.resize((int(width/2), int(height/2))) img = Image.new('RGB', (headline_img.size[0]+ source_img.size[0] + logo.size[0] +22, 32)) img.paste(headline_img, (source_img.size[0]+logo.size[0] + 10, 3)) img.paste(source_img, (logo.size[0]+2,3)) img.paste(logo, (0,0)) image_list.append(img) image_list.append(blank) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() news_image = self.stitchImage(image_list) return news_image def getLeagueImage(self, league=False, time = 'past'): if time in ['past', 'live']: filepath = 'csv/{}_games.json'.format(time) else: filepath = 'csv/upcoming_games.json' f = open(filepath, 'r') all_settings = json.load(f) f.close() title_img = self.openImage('feature_titles/sports_'+ time + '.png') if all_settings['title']: title_img = self.openImage('feature_titles/sports_{}.png'.format(time)) imgs = [title_img, self.blank] else: imgs = [] leagues_info = all_settings['leagues'] leagues = list(leagues_info.keys()) if time == 'live': for league in leagues: try: x_offset = 0 if league == 'NFL': f = open('csv/live_nfl.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['NFL'][0] elif league == 'NHL': f = open('csv/live_nhl.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['NHL'][0] elif league == 'NBA': f = open('csv/live_nba.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['NBA'][0] elif league == 'MLB': f = open('csv/live_mlb.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['MLB'][0] elif league == 'MLS': f = open('csv/live_mls.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['MLS'][0] elif league == 'PREMIERLEAGUE': f = open('csv/live_pl.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['PREMIERLEAGUE'][0] img = Image.new('RGB', (10000, 32)) try: league_logo = Image.open('logos/sports/league_logos/{}.png'.format(league)).convert('RGB') img.paste(league_logo, (x_offset,0)) x_offset += league_logo.size[0] +self.blank.size[0] except: pass slight_large_font = ImageFont.load("./fonts/9x15.pil") small_font = ImageFont.load("./fonts/5x7.pil") med_font = ImageFont.load("./fonts/7x14B.pil") large_font = ImageFont.load("./fonts/9x18B.pil") extra_small_font = ImageFont.load("./fonts/4x6.pil") try: sports_info = self.readSportsCSV(league) except: pass buff_size = 25 if all_settings['leagues'][league][2] == 'no_live' and all_settings['leagues'][league][3] == 'no_upcoming': no_match = self.textImage(('No live games').upper(), slight_large_font, r = 255, g = 255 , b = 255) img.paste(no_match, (x_offset,10)) x_offset += no_match.size[0] + buff_size elif all_settings['leagues'][league][3] != 'no_upcoming': next_match = self.textImage('Next game: ' + all_settings['leagues'][league][3], slight_large_font, r=255,g=255,b=255) img.paste(next_match, (x_offset,10)) x_offset += next_match.size[0] + buff_size else: for match in league_info: if match['isLive'] != 'pre': dateEvent = match['time'] date_timage = self.textImage(dateEvent, small_font, r=255, g=255, b=255) strHomeTeam = match['home_team'] strAwayTeam = match['away_team'] intHomeScore = str(match['home_score']) intAwayScore = str(match['away_score']) try: home_logo = Image.open('logos/sports/{}/{}'.format(league, sports_info[strHomeTeam]['logo'])) except Exception as e: home_logo = self.textImage(strHomeTeam.replace(' ', '\n'), extra_small_font, r = 255, g = 255, b = 255) try: away_logo = Image.open('logos/sports/{}/{}'.format(league, sports_info[strAwayTeam]['logo'])) except Exception as e: away_logo = self.textImage(strAwayTeam.replace(' ', '\n'), extra_small_font, r = 255, g = 255, b = 255) img.paste(away_logo, (x_offset,0)) x_offset += away_logo.size[0] + 4 score_image = self.textImage(intAwayScore + '-' + intHomeScore, large_font, h_buff = 5, r = 255, g = 255, b = 255) try: h_colour = mcolors.to_rgb(sports_info[strHomeTeam]['colour'].replace(' ', '')) except: pass try: a_colour = mcolors.to_rgb(sports_info[strAwayTeam]['colour'].replace(' ', '')) except: pass try: hc_timage = self.textImage(sports_info[strHomeTeam]['code'], small_font, r = int(h_colour[0]*255), g = int(h_colour[1]*255), b = int(h_colour[2]*255)) except Exception as e: hc_timage = self.textImage('.', extra_small_font, r = 255, g = 255, b = 255) try: ac_timage = self.textImage(sports_info[strAwayTeam]['code'], small_font, r = int(a_colour[0]*255), g = int(a_colour[1]*255), b = int(a_colour[2]*255)) except Exception as e: ac_timage = self.textImage('.', extra_small_font, r = 255, g = 255, b = 255) vs_timage = self.textImage('VS', extra_small_font, r = 255, g = 255, b = 255) vs_size = hc_timage.size[0] + ac_timage.size[0] + vs_timage.size[0] main_offset = x_offset + int(max(vs_size, date_timage.size[0], score_image.size[0])/2) img.paste(date_timage,(main_offset - int(date_timage.size[0]/2),0)) img.paste(vs_timage, (main_offset - int(vs_timage.size[0]/2),10)) img.paste(ac_timage, (main_offset - int(vs_timage.size[0]/2) - ac_timage.size[0], 9)) img.paste(score_image, (main_offset - int(score_image.size[0]/2), 15)) if match['isLive'] == 'post': if int(intHomeScore) < int(intAwayScore) or int(intHomeScore) == int(intAwayScore): ua_image = Image.new("RGB", (hc_timage.size[0] -2, 1)) ua_image1 = ImageDraw.Draw(ua_image) ua_image1.line((0,0,hc_timage.size[0]-2,0), fill="red", width = 0) img.paste(ua_image, (main_offset - int(vs_timage.size[0]/2)-ac_timage.size[0], ac_timage.size[1]+7)) img.paste(hc_timage, (main_offset + int(vs_timage.size[0]/2),9)) if match['isLive'] == 'post': if int(intHomeScore) > int(intAwayScore) or int(intHomeScore) == int(intAwayScore): u_image = Image.new("RGB", (ac_timage.size[0] -2, 1)) u_image1 = ImageDraw.Draw(u_image) u_image1.line((0,0,ac_timage.size[0]-2,0), fill="red", width = 0) img.paste(u_image, (main_offset + int(vs_timage.size[0]/2), hc_timage.size[1]+7)) x_offset = (main_offset + max(int(date_timage.size[0]/2), int(vs_timage.size[0]/2) + hc_timage.size[0], int(score_image.size[0]/2)) + 4) img.paste(home_logo, (x_offset,0)) x_offset += home_logo.size[0] + buff_size img = img.crop((0,0,x_offset,32)) imgs.append(img) except Exception as e: pass else: for league in leagues: try: x_offset = 0 if (league =='PGA') or (league == 'LPGA') or (league == 'PGA_EU') or (league == 'LIV') or (league == 'NASCAR') or (league == 'F1'): img = Image.new('RGB', (10000, 32)) else: img = Image.new('RGB', (10000, 32)) league_info = leagues_info[league] try: league_logo = Image.open('logos/sports/league_logos/{}.png'.format(league)) if (league == 'PGA') or (league == 'LPGA') or (league == 'PGA_EU') or (league == 'LIV') or (league == 'NASCAR') or (league == 'F1'): x_offset += self.blank.size[0] else: img.paste(league_logo, (x_offset,0)) x_offset += league_logo.size[0] +self.blank.size[0] except: pass try: sports_info = self.readSportsCSV(league) except: pass med_font = ImageFont.load("./fonts/7x14B.pil") large_font = ImageFont.load("./fonts/9x18B.pil") extra_small_font = ImageFont.load("./fonts/4x6.pil") buff_size = 25 if league == 'UFC': try: small_font = ImageFont.load("./fonts/6x10.pil") date_img = self.textImage(league_info[0]['date'], small_font, r=0,g=150,b=255) eventname_img = self.textImage(league_info[0]['name'].upper(), med_font, r=255, g=0, b=0) venue_img = self.textImage(league_info[0]['venue'], small_font, r=255, g=255, b=0) city_img = self.textImage(league_info[0]['city'], small_font, r=255, g=255, b=255) try: country_img = self.textImage(league_info[0]['country'], small_font, r=255, g=128, b=0) except: pass broadcast_img = self.textImage(league_info[0]['broadcast'], small_font, r=255, g=0, b=0) time_img = self.textImage(league_info[0]['time'], small_font, r =0, g=150, b=255) try: img.paste(country_img, (x_offset + venue_img.size[0] + 5 + city_img.size[0] +5, 13)) except: country_img = 0 pass img.paste(eventname_img, (x_offset, 0)) img.paste(city_img, (x_offset+ venue_img.size[0] + 5, 13)) img.paste(venue_img, (x_offset,13)) img.paste(broadcast_img, (x_offset + date_img.size[0] + 5 + time_img.size[0] + 5, 23)) img.paste(date_img, (x_offset, 23)) img.paste(time_img, (x_offset + date_img.size[0] + 5, 23)) try: x_offset = 5 + max(x_offset + eventname_img.size[0], x_offset + venue_img.size[0] + 5 + city_img.size[0] + 5 + country_img.size[0], x_offset + date_img.size[0] + 5 + time_img.size[0] + 5 + broadcast_img.size[0]) except: x_offset = 5 + max(x_offset + eventname_img.size[0], x_offset + venue_img.size[0] + 5 + city_img.size[0] + 5, x_offset + date_img.size[0] + 5 + time_img.size[0] + 5 + broadcast_img.size[0]) for fight in league_info[0]['fights']: try: if time != 'past': fighter1_img = Image.open('logos/ufc/{}.png'.format(fight['fighter1id'])) elif time == 'past': fighter1_img = Image.open('logos/ufc_past/{}.png'.format(fight['fighter1id'])) #fighter1_img.thumbnail((9000,32)) except: fighter1_img = Image.open('logos/unknown.png') pass try: if time != 'past': fighter2_img = Image.open('logos/ufc/{}.png'.format(fight['fighter2id'])) elif time == 'past': fighter2_img = Image.open('logos/ufc_past/{}.png'.format(fight['fighter2id'])) #fighter2_img.thumbnail((9000,32)) except: fighter2_img = Image.open('logos/unknown.png') pass weight_img = self.textImage(fight['weight_div'].upper(), extra_small_font, r=255,g=255,b=255) age1_img = self.textImage(fight['fighter1age'], extra_small_font, r=255,g=255,b=255) age2_img = self.textImage(fight['fighter2age'], extra_small_font, r=255,g=255,b=255) age_img = self.textImage('AGE', extra_small_font, r=255,g=0,b=0) height1_img = self.textImage(fight['fighter1height'], extra_small_font, r=255,g=255,b=255) height2_img = self.textImage(fight['fighter2height'], extra_small_font, r=255,g=255,b=255) height_img = self.textImage('HEIGHT', extra_small_font, r=255,g=0,b=0) weight1_img = self.textImage(fight['fighter1weight'], extra_small_font, r=255,g=255,b=255) weight2_img = self.textImage(fight['fighter2weight'], extra_small_font, r=255,g=255,b=255) weights_img = self.textImage('WEIGHT', extra_small_font, r=255,g=0,b=0) reach1_img = self.textImage(fight['fighter1reach'], extra_small_font, r=255,g=255,b=255) reach2_img = self.textImage(fight['fighter2reach'], extra_small_font, r=255,g=255,b=255) reach_img = self.textImage('REACH', extra_small_font, r=255,g=0,b=0) name1_img = self.textImage(fight['fighter1name'], extra_small_font, r=255,g=255,b=255) record1_img = self.textImage(fight['fighter1record'], extra_small_font, r=255, g=255, b=255) name2_img = self.textImage(fight['fighter2name'], extra_small_font, r=255,g=255,b=255) record2_img = self.textImage(fight['fighter2record'], extra_small_font, r=255, g=255, b=255) if time != 'past': odds1_img = self.textImage(fight['fighter1odds'], extra_small_font, r=0, g=255, b=0) #odds2_img = self.textImage(fight['fighter2odds'], extra_small_font, r=0, g=255, b=0) elif time == 'past': if fight['fighter1win']: win1_img = self.textImage('WIN', extra_small_font, r=0, g=255, b=0) elif not fight['fighter1win'] and not fight['fighter2win']: win1_img = self.textImage('DRAW', extra_small_font, r=80, g=80, b=80) else: win1_img = self.textImage('LOSS', extra_small_font, r=0, g=255, b=0) max_fighter1_pic = max(fighter1_img.size[0], name1_img.size[0], record1_img.size[0]) draw = ImageDraw.Draw(img, "RGBA") img.paste(fighter1_img, (x_offset + int(max_fighter1_pic/2) - int(fighter1_img.size[0]/2), 0), mask=fighter1_img) try: country1_img = Image.open('logos/ufc_countries/{}'.format(fight['fighter1country'].split('/')[-1].split('&')[0])) country1_img.thumbnail((9000,12)) img.paste(country1_img,(x_offset, 0)) except: pass draw.rectangle([(x_offset,32),(x_offset + max(name1_img.size[0],record1_img.size[0])-4,21)], fill=(5,5,5,200)) draw.text((x_offset + int(max_fighter1_pic/2) - int(name1_img.size[0]/2),21), fight['fighter1name'], fill=(255,255,255),font=extra_small_font) #img.paste(name1_img, (x_offset + int(max_fighter1_pic/2) - int(name1_img.size[0]/2),21)) draw.text((x_offset + int(max_fighter1_pic/2) - int(record1_img.size[0]/2),27), fight['fighter1record'], fill=(255,255,0),font=extra_small_font) #img.paste(record1_img, (x_offset + int(max_fighter1_pic/2) - int(record1_img.size[0]/2), 27)) x_offset += max(fighter1_img.size[0], name1_img.size[0], record1_img.size[0]) widest = x_offset + int(max(weight_img.size[0], age1_img.size[0] + 3 + age_img.size[0] + 3 + age2_img.size[0], height1_img.size[0] + 3 + height_img.size[0] + 3 + height2_img.size[0], weight1_img.size[0] + 3 + weights_img.size[0] + 3 + weight2_img.size[0], reach1_img.size[0] + 3 + reach_img.size[0] + 3 + reach2_img.size[0])/2) largest = max(age_img.size[0],weights_img.size[0],height_img.size[0],reach_img.size[0]) img.paste(weight_img,(widest - int(weight_img.size[0]/2), 0)) if time != 'past': draw.text((widest - int(weight_img.size[0]/2) - odds1_img.size[0] - 2,0), fight['fighter1odds'], fill=(0,255,0),font=extra_small_font) # img.paste(odds1_img, (widest - int(weight_img.size[0]/2) - odds1_img.size[0] - 2,0)) elif time == 'past': if fight['fighter1win']: draw.text((widest - int(weight_img.size[0]/2) - win1_img.size[0] - 2,0), 'WIN', fill=(0,255,0),font=extra_small_font) elif not fight['fighter1win'] and not fight['fighter2win']: draw.text((widest - int(weight_img.size[0]/2) - win1_img.size[0] - 2,0), 'DRAW', fill=(80,80,80),font=extra_small_font) else: draw.text((widest - int(weight_img.size[0]/2) - win1_img.size[0] - 2,0), 'LOSS', fill=(255,0,0),font=extra_small_font) img.paste(age1_img,(widest - int(largest/2) - age1_img.size[0] - 3, 7)) img.paste(age_img,(widest - int(age_img.size[0]/2),7)) img.paste(age2_img, (widest + int(largest/2) + 3, 7)) img.paste(height1_img,(widest - int(largest/2) - height1_img.size[0] - 3, 13)) img.paste(height_img,(widest - int(height_img.size[0]/2),13)) img.paste(height2_img, (widest + int(largest/2) + 3, 13)) img.paste(weight1_img,(widest - int(largest/2) - weight1_img.size[0] - 3, 19)) img.paste(weights_img,(widest - int(weights_img.size[0]/2),19)) img.paste(weight2_img, (widest + int(largest/2) + 3, 19)) img.paste(reach1_img,(widest - int(largest/2) - reach1_img.size[0] - 3, 25)) img.paste(reach_img,(widest - int(reach_img.size[0]/2),25)) img.paste(reach2_img, (widest + int(largest/2) + 3, 25)) x_offset = widest + widest - x_offset + 2 max_fighter2_pic = max(fighter2_img.size[0], name2_img.size[0], record2_img.size[0]) img.paste(fighter2_img, (x_offset + int(max_fighter2_pic/2) - int(fighter2_img.size[0]/2), 0), mask=fighter2_img) draw.rectangle([(x_offset,32),(x_offset + max(name2_img.size[0],record2_img.size[0])-4,21)], fill=(5,5,5,200)) draw.text((x_offset + int(max_fighter2_pic/2) - int(name2_img.size[0]/2),21), fight['fighter2name'], fill=(255,255,255),font=extra_small_font) #img.paste(name1_img, (x_offset + int(max_fighter1_pic/2) - int(name1_img.size[0]/2),21)) draw.text((x_offset + int(max_fighter2_pic/2) - int(record2_img.size[0]/2),27), fight['fighter2record'], fill=(255,255,0),font=extra_small_font) #img.paste(record1_img, (x_offset + int(max_fighter1_pic/2) - int(record1_img.size[0]/2), 27)) x_offset += max(fighter2_img.size[0], name2_img.size[0], record2_img.size[0]) + 25 if time != 'past': draw.text((widest + int(weight_img.size[0]/2) + 2,0), fight['fighter2odds'], fill=(0,255,0),font=extra_small_font) #img.paste(odds2_img, (widest + int(weight_img.size[0]/2) + 2,0)) elif time == 'past': if fight['fighter2win']: draw.text((widest + int(weight_img.size[0]/2) + 2,0), 'WIN', fill=(0,255,0),font=extra_small_font) elif not fight['fighter2win'] and not fight['fighter1win']: draw.text((widest + int(weight_img.size[0]/2) + 2,0), 'DRAW', fill=(80,80,80),font=extra_small_font) else: draw.text((widest + int(weight_img.size[0]/2) + 2,0), 'LOSS', fill=(255,0,0),font=extra_small_font) try: country2_img = Image.open('logos/ufc_countries/{}'.format(fight['fighter2country'].split('/')[-1].split('&')[0])) country2_img.thumbnail((9000,12)) img.paste(country2_img,(x_offset-country2_img.size[0]-25, 0)) except: pass except: pass # DONT FORGET TO CHANGE DIRECTORY FOR PAST UFC GAMES else: small_font = ImageFont.load("./fonts/5x7.pil") for match in league_info: try: dateEvent = match['date2'] except: dateEvent = match['date'].replace('-', '.') date_timage = self.textImage(dateEvent, small_font, r=255, g=255, b=255) if (league == 'PGA') or (league == 'LPGA') or (league == 'PGA_EU') or (league == 'LIV') or (league == 'NASCAR') or (league == 'F1'): event = match['event'] venue = match['venue'] city = match['city'] country = match['country'] season = match['season'] if (time != 'future') and (league != 'LIV'): golf_standings1 = match['golf_rankings'][::2] golf_standings2 = match['golf_rankings'][1::2] elif (time!= 'future') and (league == 'LIV'): golf_standings1 = match['golf_rankings'][::2] golf_standings2 = match['golf_rankings'][1::2] #golf_standings1_teams = match['golf_standings'][1][::2] #golf_standings2_teams = match['golf_standings'][1][1::2] img.paste(league_logo, (x_offset, 0)) x_offset += league_logo.size[0] + 2 try: if match['purse'] != 'N/A' and match['purse'] != "" and match['purse'] != '0': purse_timage = self.textImage(match['purse'], small_font, r=0,g=255,b=0) except: pass try: if match['shots_par'] != 'N/A' and match['shots_par'] != "" and match['shots_par'] != 0: par_timage = self.textImage('Par' + str(match['shots_par']), small_font, r=255,g=127,b=80) except: pass try: if match['total_yards'] != 'N/A' and match['total_yards'] != "" and match['total_yards'] != 0: yards_timage = self.textImage(str(match['total_yards']) + 'yds', small_font, r=255,g=127,b=80) except: pass if time == 'future': event_timage = self.textImage(event, med_font, r=255, g=255, b=0) venue_timage = self.textImage(venue, small_font, r=0, g=255, b=0) city_timage = self.textImage(city, small_font, r=255, g=255, b=255) country_timage = self.textImage(country, small_font, r=255, g=255, b=255) date1_timage = self.textImage('Date:', small_font, r=255, g=0, b=171) season1_timage = self.textImage('Season:', small_font, r=0, g=170, b=255) season_timage = self.textImage(season, small_font, r=255, g=255, b=255) x_offset += 2 x_offset_2nd = x_offset x_offset_3rd = x_offset #date img.paste(date1_timage, (x_offset, 26)) x_offset += date1_timage.size[0] img.paste(date_timage, (x_offset, 26)) x_offset += date_timage.size[0] + 10 #season img.paste(season1_timage,(x_offset,26)) x_offset += season1_timage.size[0] img.paste(season_timage,(x_offset,26)) x_offset += season_timage.size[0] + 3 #event img.paste(event_timage, (x_offset_2nd, 0)) x_offset_2nd += event_timage.size[0] + 5 #country img.paste(country_timage,(x_offset_2nd, 5)) x_offset_2nd += country_timage.size[0] #venue img.paste(venue_timage,(x_offset_3rd, 16)) x_offset_3rd += venue_timage.size[0] + 10 #city img.paste(city_timage,(x_offset_3rd, 16)) x_offset_3rd += city_timage.size[0] try: if match['total_yards'] != 'N/A' and match['total_yards'] != "" and match['total_yards'] != 0: img.paste(yards_timage, (x_offset_3rd + 10, 16)) x_offset_3rd += yards_timage.size[0] + 10 except: pass try: if match['shots_par'] != 'N/A' and match['shots_par'] != "" and match['shots_par'] != 0: img.paste(par_timage, (x_offset_3rd + 5, 16)) x_offset_3rd += par_timage.size[0] + 5 except: pass try: if match['purse'] != 'N/A' and match['purse'] != "" and match['purse'] != '0': img.paste(purse_timage, (x_offset + 7, 25)) x_offset += purse_timage.size[0] + 3 + 7 except: pass x_offset = max(x_offset, x_offset_2nd, x_offset_3rd) x_offset += buff_size else: event_timage = self.textImage(event, med_font, r=255, g=255, b=0) venue_timage = self.textImage(venue, small_font, r=0, g=255, b=0) city_timage = self.textImage(city, small_font, r=255, g=255, b=255) country_timage = self.textImage(country, small_font, r=255, g=255, b=255) date1_timage = self.textImage('Date:', small_font, r=255, g=0, b=171) season1_timage = self.textImage('Season:', small_font, r=0, g=170, b=255) season_timage = self.textImage(season, small_font, r=255, g=255, b=255) x_offset += 2 x_offset_2nd = x_offset x_offset_3rd = x_offset #date img.paste(date1_timage, (x_offset, 26)) x_offset += date1_timage.size[0] img.paste(date_timage, (x_offset, 26)) x_offset += date_timage.size[0] + 10 #season img.paste(season1_timage,(x_offset,26)) x_offset += season1_timage.size[0] img.paste(season_timage,(x_offset,26)) x_offset += season_timage.size[0] + 3 #event img.paste(event_timage, (x_offset_2nd, 0)) x_offset_2nd += event_timage.size[0] + 5 #country img.paste(country_timage,(x_offset_2nd, 5)) x_offset_2nd += country_timage.size[0] #venue img.paste(venue_timage,(x_offset_3rd, 16)) x_offset_3rd += venue_timage.size[0] + 10 #city img.paste(city_timage,(x_offset_3rd, 16)) x_offset_3rd += city_timage.size[0] try: if match['total_yards'] != 'N/A' and match['total_yards'] != "" and match['total_yards'] != 0: img.paste(yards_timage, (x_offset_3rd + 10, 16)) x_offset_3rd += yards_timage.size[0] + 10 except: pass try: if match['shots_par'] != 'N/A' and match['shots_par'] != "" and match['shots_par'] != 0: img.paste(par_timage, (x_offset_3rd + 5, 16)) x_offset_3rd += par_timage.size[0] + 5 except: pass try: if match['purse'] != 'N/A' and match['purse'] != "" and match['purse'] != '0': img.paste(purse_timage, (x_offset + 7, 25)) x_offset += purse_timage.size[0] + 3 + 7 except: pass x_offset = max(x_offset, x_offset_2nd, x_offset_3rd) + 5 #x_offset2 = x_offset symbol1_timage = self.textImage('|', small_font, r=255, g=255, b=0) for each_player, each_player2 in zip(golf_standings1, golf_standings2): img.paste(symbol1_timage, (x_offset, 7)) img.paste(symbol1_timage, (x_offset, 20)) x_offset += symbol1_timage.size[0] + 3 golf1_offset = 0 golf2_offset = 0 try: golf1_rank_timage = self.textImage(each_player['rank'], small_font, r=255, g=255, b=255) golf1_offset += golf1_rank_timage.size[0] + 3 img.paste(golf1_rank_timage,(x_offset, 7)) try: golf1_country = Image.open('logos/ufc_countries/{}'.format(each_player['country'].split('/')[-1].split('&')[0])) golf1_country.thumbnail((9000,12)) img.paste(golf1_country,(x_offset + golf1_rank_timage.size[0] + 3, 4)) golf1_offset += golf1_country.size[0] + 3 except: pass golf_standings1_timage = self.textImage(each_player['name'] + ' ' + each_player['score'], small_font, r=255, g=255, b=255) img.paste(golf_standings1_timage, (x_offset + golf1_offset, 7)) golf1_offset += golf_standings1_timage.size[0] except: pass try: golf2_rank_timage = self.textImage(each_player2['rank'], small_font, r=255, g=255, b=255) golf2_offset += golf2_rank_timage.size[0] + 3 img.paste(golf2_rank_timage,(x_offset, 20)) try: golf2_country = Image.open('logos/ufc_countries/{}'.format(each_player2['country'].split('/')[-1].split('&')[0])) golf2_country.thumbnail((9000,12)) img.paste(golf2_country,(x_offset + golf2_rank_timage.size[0] + 3, 17)) golf2_offset += golf2_country.size[0] + 3 except: pass golf_standings2_timage = self.textImage(each_player2['name'] + ' ' + each_player2['score'], small_font, r=255, g=255, b=255) img.paste(golf_standings2_timage, (x_offset + golf2_offset, 20)) golf2_offset += golf_standings2_timage.size[0] except: pass x_offset += max(golf2_offset, golf1_offset) + 5 #for each_player in golf_standings1: # symbol1_timage = self.textImage('|', small_font, r=255, g=255, b=0) # img.paste(symbol1_timage, (x_offset + 5, 7)) # golf_standings1_timage = self.textImage(each_player, small_font, r=255, g=255, b=255) # img.paste(golf_standings1_timage, (x_offset + symbol1_timage.size[0] + 7, 7)) # x_offset += (golf_standings1_timage.size[0] + symbol1_timage.size[0] + 7) #for each_player2 in golf_standings2: # symbol2_timage = self.textImage('|', small_font, r=255, g=255, b=0) # img.paste(symbol2_timage, (x_offset2 + 5, 20)) # golf_standings2_timage = self.textImage(each_player2, small_font, r=255, g=255, b=255) # img.paste(golf_standings2_timage, (x_offset2 + symbol2_timage.size[0] + 7, 20)) # x_offset2 += (golf_standings2_timage.size[0] + symbol2_timage.size[0] + 7) # if league == 'LIV': # if x_offset >= x_offset2: # x_offset += 10 # x_offset2 = x_offset # else: # x_offset2 += 10 # x_offset = x_offset2 #for each_team in golf_standings1_teams: # symbol1_timage = self.textImage('|', small_font, r=0, g=255, b=0) # img.paste(symbol1_timage, (x_offset + 5, 7)) # golf_standings1_timage = self.textImage(each_team, small_font, r=255, g=255, b=255) # img.paste(golf_standings1_timage, (x_offset + symbol1_timage.size[0] + 7, 7)) # x_offset += (golf_standings1_timage.size[0] + symbol1_timage.size[0] + 7) #for each_team2 in golf_standings2_teams: # symbol2_timage = self.textImage('|', small_font, r=0, g=255, b=0) # img.paste(symbol2_timage, (x_offset2 + 5, 20)) # golf_standings2_timage = self.textImage(each_team2, small_font, r=255, g=255, b=255) # img.paste(golf_standings2_timage, (x_offset2 + symbol2_timage.size[0] + 7, 20)) # x_offset2 += (golf_standings2_timage.size[0] + symbol2_timage.size[0] + 7) #if x_offset >= x_offset2: x_offset += buff_size #else: # x_offset = x_offset2 # x_offset += buff_size else: strHomeTeam = match['home_team'] strAwayTeam = match['away_team'] if time != 'future': intHomeScore = str(match['home_score']) intAwayScore = str(match['away_score']) try: home_logo = Image.open('logos/sports/{}/{}'.format(league, sports_info[strHomeTeam]['logo'])) except Exception as e: home_logo = self.textImage(strHomeTeam.replace(' ', '\n'), extra_small_font, r = 255, g = 255, b = 255) try: away_logo = Image.open('logos/sports/{}/{}'.format(league, sports_info[strAwayTeam]['logo'])) except Exception as e: away_logo = self.textImage(strAwayTeam.replace(' ', '\n'), extra_small_font, r = 255, g = 255, b = 255) img.paste(away_logo, (x_offset,0)) x_offset += away_logo.size[0] + 4 if time == 'future': try: start_time = match['time'] #img.paste(date_timage, (x_offset+5, 0)) time_img = self.textImage(start_time, small_font, r=255,g=255,b=255) except: pass try: h_colour = mcolors.to_rgb(sports_info[strHomeTeam]['colour'].replace(' ', '')) except: pass try: a_colour = mcolors.to_rgb(sports_info[strAwayTeam]['colour'].replace(' ', '')) except: pass vs_timage = self.textImage('vs', med_font, r = 255, g = 255, b = 255, h_buff = 5) try: hc_timage = self.textImage(sports_info[strHomeTeam]['code'], med_font, r = int(h_colour[0]*255), g = int(h_colour[1]*255), b = int(h_colour[2]*255)) except Exception as e: hc_timage = self.textImage('.', extra_small_font, r = 255, g = 255, b = 255) try: ac_timage = self.textImage(sports_info[strAwayTeam]['code'], med_font, r = int(a_colour[0]*255), g = int(a_colour[1]*255), b = int(a_colour[2]*255)) except Exception as e: ac_timage = self.textImage('.', extra_small_font, r = 255, g = 255, b = 255) vs_size = vs_timage.size[0] + ac_timage.size[0] + hc_timage.size[0] main_offset = 5 + x_offset + int(max(vs_size, date_timage.size[0])/2) try: img.paste(time_img, (main_offset - int(time_img.size[0]/2), 26)) except: pass img.paste(date_timage, (main_offset - int(date_timage.size[0]/2), 0)) img.paste(vs_timage, (main_offset - int(vs_timage.size[0]/2),9)) img.paste(ac_timage, (main_offset - int(vs_timage.size[0]/2) - ac_timage.size[0], 9)) img.paste(hc_timage, (main_offset + int(vs_timage.size[0]/2),9)) x_offset = (main_offset + max(int(date_timage.size[0]/2), int(vs_timage.size[0]/2) + hc_timage.size[0]) + 6) else: score_image = self.textImage(intAwayScore + '-' + intHomeScore, large_font, h_buff = 5, r = 255, g = 255, b = 255) try: h_colour = mcolors.to_rgb(sports_info[strHomeTeam]['colour'].replace(' ', '')) except: pass try: a_colour = mcolors.to_rgb(sports_info[strAwayTeam]['colour'].replace(' ', '')) except: pass try: hc_timage = self.textImage(sports_info[strHomeTeam]['code'], small_font, r = int(h_colour[0]*255), g = int(h_colour[1]*255), b = int(h_colour[2]*255)) except Exception as e: hc_timage = self.textImage('.', extra_small_font, r = 255, g = 255, b = 255) try: ac_timage = self.textImage(sports_info[strAwayTeam]['code'], small_font, r = int(a_colour[0]*255), g = int(a_colour[1]*255), b = int(a_colour[2]*255)) except Exception as e: ac_timage = self.textImage('.', extra_small_font, r = 255, g = 255, b = 255) vs_timage = self.textImage('VS', extra_small_font, r = 255, g = 255, b = 255) vs_size = hc_timage.size[0] + ac_timage.size[0] + vs_timage.size[0] main_offset = x_offset + int(max(vs_size, date_timage.size[0], score_image.size[0])/2) img.paste(date_timage,(main_offset - int(date_timage.size[0]/2),0)) img.paste(vs_timage,(main_offset - int(vs_timage.size[0]/2),10)) img.paste(ac_timage, (main_offset - int(vs_timage.size[0]/2) - ac_timage.size[0], 9)) img.paste(score_image, (main_offset - int(score_image.size[0]/2), 15)) if int(intHomeScore) < int(intAwayScore) or int(intHomeScore) == int(intAwayScore): ua_image = Image.new("RGB", (ac_timage.size[0] -2, 1)) ua_image1 = ImageDraw.Draw(ua_image) ua_image1.line((0,0,ac_timage.size[0]-2,0), fill="red", width = 0) img.paste(ua_image, (main_offset - int(vs_timage.size[0]/2)-ac_timage.size[0], ac_timage.size[1]+7)) img.paste(hc_timage, (main_offset + int(vs_timage.size[0]/2),9)) if int(intHomeScore) > int(intAwayScore) or int(intHomeScore) == int(intAwayScore): u_image = Image.new("RGB", (hc_timage.size[0] -2, 1)) u_image1 = ImageDraw.Draw(u_image) u_image1.line((0,0,hc_timage.size[0]-2,0), fill="red", width = 0) img.paste(u_image, (main_offset + int(vs_timage.size[0]/2), hc_timage.size[1]+7)) x_offset = (main_offset + max(int(date_timage.size[0]/2), int(vs_timage.size[0]/2) + hc_timage.size[0], int(score_image.size[0]/2)) + 4) img.paste(home_logo, (x_offset,0)) x_offset += home_logo.size[0] x_offset += buff_size img = img.crop((0,0,x_offset ,32)) imgs.append(img) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() return self.stitchImage(imgs) def getLeagueTableImage(self, league = False): f = open('csv/league_tables.json', 'r') all_settings = json.load(f) f.close() leagues_info = all_settings['leagues'] leagues = list(leagues_info.keys()) if all_settings['title']: title_img = self.openImage('feature_titles/sports_team_stats.png') imgs = [title_img, self.blank] else: imgs = [] ten_or_twenty = slice(None) for league in leagues: try: x_offset = 0 img = Image.new('RGB', (10000, 32)) if league == 'PGA': league_logo = Image.open('logos/sports/league_logos/pga_1.png').convert('RGB') try: if all_settings['top20'] == 10: ten_or_twenty = slice(10) else: ten_or_twenty = slice(None) except: ten_or_twenty = slice(None) elif league == 'LPGA': league_logo = Image.open('logos/sports/league_logos/lpga_1.png').convert('RGB') try: if all_settings['top20'] == 10: ten_or_twenty = slice(10) else: ten_or_twenty = slice(None) except: ten_or_twenty = slice(None) else: league_logo = Image.open('logos/sports/league_logos/{}.png'.format(league)).convert('RGB') ten_or_twenty = slice(None) img.paste(league_logo, (x_offset,0)) x_offset += league_logo.size[0] +self.blank.size[0] team_info = leagues_info[league] small_font = ImageFont.load("./fonts/5x7.pil") med_font = ImageFont.load("./fonts/8x13B.pil") large_font = ImageFont.load("./fonts/10x20.pil") #if league =='NHL': # read the NHl info from the csv, prem will need this as well try: sports_info = self.readSportsCSV(league) # gets colour and symbol info etc from csv except: pass buff_size = 20 for team in team_info[ten_or_twenty]: if league == 'PGA' or league =='LPGA': pga_font = ImageFont.load("./fonts/7x14.pil") pga_small = ImageFont.load("./fonts/5x8.pil") try: if league == 'PGA': player_img = Image.open('logos/pga_rank/' + team['photo'].split('/')[-1].split('&')[0]) elif league == 'LPGA': player_img = Image.open('logos/lpga_rank/' + team['photo'].split('/')[-1]) player_img.thumbnail((9000,32)) try: img.paste(player_img, (x_offset, 0), mask=player_img) except: img.paste(player_img, (x_offset, 0)) x_offset += player_img.size[0] + 2 except: pass x_offset2 = x_offset if league == 'LPGA': if str(abs(team['rank_change'])) != '-' and str(abs(team['rank_change'])) != '0': if int(team['rank_change']) > 0: rank_change_img = self.textImage(str(abs(team['rank_change'])), pga_font, r = 0, g = 255, b = 0) elif int(team['rank_change']) < 0: rank_change_img = self.textImage(str(abs(team['rank_change'])), pga_font, r = 255, g = 0, b = 0) elif league == 'PGA': if str(team['rank_change']) != '-': if int(team['rank_change']) > 0: rank_change_img = self.textImage(str(abs(int(team['rank_change']))), pga_font, r = 0, g = 255, b = 0) elif int(team['rank_change']) < 0: rank_change_img = self.textImage(str(abs(int(team['rank_change']))), pga_font, r = 255, g = 0, b = 0) country_img = Image.open('logos/ufc_countries/' + team['country'].split('/')[-1].split('&')[0]) country_img.thumbnail((9000,13)) img.paste(country_img, (x_offset, 0)) x_offset += country_img.size[0] + 2 rank_img = self.textImage('#' + str(team['rank']), pga_font, r = 255, g=255, b=0) img.paste(rank_img, (x_offset, 0)) x_offset += rank_img.size[0] + 2 name_img = self.textImage(team['first_name'].upper()[0] + '. ' + team['last_name'].upper(), pga_font, r= 255, g = 255, b = 255) img.paste(name_img, (x_offset, 0)) x_offset += name_img.size[0] + 5 if league == 'LPGA': if str(abs(int(team['rank_change']))) != '-' and str(abs(int(team['rank_change']))) != '0': try: x_offset = x_offset - 3 up_img = Image.open('logos/up-tiny.png') down_img = Image.open('logos/down-tiny.png') if int(team['rank_change']) > 0: img.paste(up_img, (x_offset, 6)) x_offset += up_img.size[0] + 2 elif int(team['rank_change']) < 0: img.paste(down_img, (x_offset, 6)) x_offset += down_img.size[0] + 2 img.paste(rank_change_img, (x_offset, 0)) x_offset += rank_change_img.size[0] + 5 except: pass elif league == 'PGA': if str(team['rank_change']) != '-': try: x_offset = x_offset - 3 up_img = Image.open('logos/up-tiny.png') down_img = Image.open('logos/down-tiny.png') if int(team['rank_change']) > 0: img.paste(up_img, (x_offset, 6)) x_offset += up_img.size[0] + 2 elif int(team['rank_change']) < 0: img.paste(down_img, (x_offset, 6)) x_offset += down_img.size[0] + 2 img.paste(rank_change_img, (x_offset, 0)) x_offset += rank_change_img.size[0] + 5 except: pass totalpts_img = self.textImage('Total:', pga_small, r = 255, g = 255, b = 255) totalpts2_img = self.textImage(str(team['total_pts']), pga_small, r = 0, g = 255, b = 0) img.paste(totalpts_img, (x_offset2, 14)) img.paste(totalpts2_img, (x_offset2 + totalpts_img.size[0] + 2, 14)) avgpts_img = self.textImage('Avg:', pga_small, r = 255, g = 255, b = 255) avgpts2_img = self.textImage(str(team['avg_pts']), pga_small, r = 0, g = 0, b = 255) img.paste(avgpts_img, (x_offset2, 23)) img.paste(avgpts2_img, (x_offset2 + 2 + avgpts_img.size[0], 23)) events_img = self.textImage('Events:', pga_small, r= 255, g = 255, b = 255) events2_img = self.textImage(str(team['events_played']), pga_small, r= 255, g = 128, b = 0) img.paste(events_img, (x_offset2 + 10 + avgpts_img.size[0] + 2 + avgpts2_img.size[0], 23)) img.paste(events2_img, (x_offset2 + 10 + avgpts_img.size[0] + 2 + avgpts2_img.size[0] + 2 + events_img.size[0], 23)) try: ptsgained_img = self.textImage('+'+str(team['gained_pts']), pga_small, r=0, g= 255, b=0) ptslost_img = self.textImage(str(team['lost_pts']), pga_small, r=255, g= 0, b=0) img.paste(ptsgained_img, (x_offset2 + totalpts_img.size[0] + 2 + totalpts2_img.size[0] + 5, 14)) img.paste(ptslost_img, (x_offset2 + totalpts_img.size[0] + 2 + totalpts2_img.size[0] + 5 + ptsgained_img.size[0] + 3, 14)) x_offset2 += max(avgpts_img.size[0] + 2 + avgpts2_img.size[0] + 10 + events_img.size[0] + 2 + events2_img.size[0], totalpts_img.size[0] + 2 + totalpts2_img.size[0] + 5 + ptsgained_img.size[0] + 3 + ptslost_img.size[0]) except: x_offset2 += max(avgpts_img.size[0] + 2 + avgpts2_img.size[0] + 10 + events_img.size[0] + 2 + events2_img.size[0], 2 + totalpts_img.size[0] + totalpts2_img.size[0]) pass x_offset = max(x_offset, x_offset2) + 20 else: try: logo = Image.open('logos/sports/{}/{}'.format(league, sports_info[team['name']]['logo'])) img.paste(logo, (x_offset, 0)) x_offset += logo.size[0] + 2 except Exception as e: pass name_timage = self.textImage(team['name'], med_font, r = 255, g = 255, b = 0) wins_timage = self.textImage('Wins:' + str(team['wins']), small_font, r = 0, g = 255, b = 0) loss_timage = self.textImage('Losses:' + str(team['loss']), small_font, r = 255, g = 0, b = 0) draw_timage = self.textImage('Draws:' + str(team['draw']), small_font, r = 0, g = 0, b = 255) standing_timage = self.textImage('Standing:' + str(team['standing']), small_font, r = 255, g = 255, b = 255) img.paste(name_timage, (x_offset, -1)) img.paste(wins_timage, (x_offset, 12)) img.paste(loss_timage, (x_offset, 19)) img.paste(draw_timage, (x_offset, 26)) x_offset += max( wins_timage.size[0], loss_timage.size[0], draw_timage.size[0]) img.paste(standing_timage, (x_offset, 22)) x_offset += standing_timage.size[0] if name_timage.size[0] > max( wins_timage.size[0], loss_timage.size[0], draw_timage.size[0]) + standing_timage.size[0]: x_offset += name_timage.size[0] - (max( wins_timage.size[0], loss_timage.size[0], draw_timage.size[0]) + standing_timage.size[0]) x_offset += buff_size img = img.crop((0,0,x_offset ,32)) imgs.append(img) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() return self.stitchImage(imgs) def getLeagueTableProfessional(self, league = False): f = open('csv/league_tables.json', 'r') all_settings = json.load(f) f.close() leagues_info = all_settings['leagues'] leagues = list(leagues_info.keys()) if all_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/sports_team_stats.png') imgs = [title_img, self.blank] else: imgs = [] ten_or_twenty = slice(None) for league in leagues: try: x_offset = 0 img = Image.new('RGB', (10000, 32)) if league == 'PGA': league_logo = Image.open('logos/sports/league_logos/pga_1.png').convert('RGB') try: if all_settings['top20'] == 10: ten_or_twenty = slice(10) else: ten_or_twenty = slice(None) except: ten_or_twenty = slice(None) elif league == 'LPGA': league_logo = Image.open('logos/sports/league_logos/lpga_1.png').convert('RGB') try: if all_settings['top20'] == 10: ten_or_twenty = slice(10) else: ten_or_twenty = slice(None) except: ten_or_twenty = slice(None) else: league_logo = Image.open('logos/sports/league_logos/{}.png'.format(league)).convert('RGB') ten_or_twenty = slice(None) width, height = league_logo.size league_logo2 = league_logo.resize((int(width/2), int(height/2))) img.paste(league_logo2, (x_offset,0)) x_offset += (league_logo2.size[0]+5) team_info = leagues_info[league] font = ImageFont.load("./fonts/6x10.pil") try: sports_info = self.readSportsCSV(league) except: pass buff_size = 20 for team in team_info[ten_or_twenty]: if league == 'PGA' or league =='LPGA': pga_small = ImageFont.load("./fonts/4x6.pil") try: if league == 'PGA': player_img = Image.open('logos/pga_rank/' + team['photo'].split('/')[-1].split('&')[0]) elif league == 'LPGA': player_img = Image.open('logos/lpga_rank/' + team['photo'].split('/')[-1]) player_img.thumbnail((9000,16)) try: img.paste(player_img, (x_offset, 0), mask=player_img) except: img.paste(player_img, (x_offset, 0)) x_offset += player_img.size[0] + 2 except: pass if league == 'LPGA': if str(abs(team['rank_change'])) != '-' and str(abs(team['rank_change'])) != '0': if int(team['rank_change']) > 0: rank_change_img = self.textImage(str(abs(team['rank_change'])), font, r = 0, g = 255, b = 0) elif int(team['rank_change']) < 0: rank_change_img = self.textImage(str(abs(team['rank_change'])), font, r = 255, g = 0, b = 0) elif league == 'PGA': if str(team['rank_change']) != '-': if int(team['rank_change']) > 0: rank_change_img = self.textImage(str(abs(int(team['rank_change']))), font, r = 0, g = 255, b = 0) elif int(team['rank_change']) < 0: rank_change_img = self.textImage(str(abs(int(team['rank_change']))), font, r = 255, g = 0, b = 0) x_offset2 = x_offset country_img = Image.open('logos/ufc_countries/' + team['country'].split('/')[-1].split('&')[0]) country_img.thumbnail((9000,11)) img.paste(country_img, (x_offset, -1)) x_offset += country_img.size[0] + 2 rank_img = self.textImage('#' + str(team['rank']), font, r = 255, g=255, b=0) img.paste(rank_img, (x_offset, 0)) x_offset += rank_img.size[0] + 2 name_img = self.textImage(team['first_name'].upper()[0] + '. ' + team['last_name'].upper(), font, r= 255, g = 255, b = 255) img.paste(name_img, (x_offset, 0)) x_offset += name_img.size[0] + 2 if league == 'LPGA': if str(abs(int(team['rank_change']))) != '-' and str(abs(int(team['rank_change']))) != '0': try: up_img = Image.open('logos/up-tiny.png') down_img = Image.open('logos/down-tiny.png') if int(team['rank_change']) > 0: img.paste(up_img, (x_offset, 3)) x_offset += up_img.size[0] + 2 elif int(team['rank_change']) < 0: img.paste(down_img, (x_offset, 3)) x_offset += down_img.size[0] + 2 img.paste(rank_change_img, (x_offset, 0)) x_offset += rank_change_img.size[0] + 2 except: pass elif league == 'PGA': if str(team['rank_change']) != '-': try: up_img = Image.open('logos/up-tiny.png') down_img = Image.open('logos/down-tiny.png') if int(team['rank_change']) > 0: img.paste(up_img, (x_offset, 3)) x_offset += up_img.size[0] + 2 elif int(team['rank_change']) < 0: img.paste(down_img, (x_offset, 3)) x_offset += down_img.size[0] + 2 img.paste(rank_change_img, (x_offset, 0)) x_offset += rank_change_img.size[0] + 2 except: pass try: ptsgained_img = self.textImage('+'+str(team['gained_pts']), pga_small, r=0, g= 255, b=0) ptslost_img = self.textImage(str(team['lost_pts']), pga_small, r=255, g= 0, b=0) img.paste(ptsgained_img, (x_offset, 3)) x_offset += ptsgained_img.size[0] + 2 img.paste(ptslost_img, (x_offset, 3)) x_offset += ptslost_img.size[0] + 2 except: pass totalpts_img = self.textImage('Total:', pga_small, r = 255, g = 255, b = 255) totalpts2_img = self.textImage(str(team['total_pts']), pga_small, r = 0, g = 255, b = 0) img.paste(totalpts_img, (x_offset2, 10)) x_offset2 += totalpts_img.size[0] img.paste(totalpts2_img, (x_offset2, 10)) x_offset2 += totalpts2_img.size[0] + 3 avgpts_img = self.textImage('Avg:', pga_small, r = 255, g = 255, b = 255) avgpts2_img = self.textImage(str(team['avg_pts']), pga_small, r = 0, g = 0, b = 255) img.paste(avgpts_img, (x_offset2, 10)) x_offset2 += avgpts_img.size[0] img.paste(avgpts2_img, (x_offset2, 10)) x_offset2 += avgpts2_img.size[0] + 3 events_img = self.textImage('Events:', pga_small, r= 255, g = 255, b = 255) events2_img = self.textImage(str(team['events_played']), pga_small, r= 255, g = 128, b = 0) img.paste(events_img, (x_offset2, 10)) x_offset2 += events_img.size[0] img.paste(events2_img, (x_offset2, 10)) x_offset2 += events2_img.size[0] + 3 x_offsetfinal = max(x_offset2, x_offset) x_offset = x_offsetfinal + 15 else: name_timage = self.textImage(team['name'].upper(), font, r = 255, g = 255, b = 0) wins_timage = self.textImage('W:' + str(team['wins']), font, r = 0, g = 255, b = 0) loss_timage = self.textImage('L:' + str(team['loss']), font, r = 255, g = 0, b = 0) draw_timage = self.textImage('D:' + str(team['draw']), font, r = 0, g = 0, b = 255) standing_timage = self.textImage('#' + str(team['standing']), font, r = 255, g = 255, b = 255) img.paste(standing_timage, (x_offset, 3)) x_offset += (standing_timage.size[0]) try: logo = Image.open('logos/sports/{}/{}'.format(league, sports_info[team['name']]['logo'])) width, height = logo.size logo2 = logo.resize((int(width/2), int(height/2))) img.paste(logo2, (x_offset, 0)) x_offset += (logo2.size[0] + 3) except Exception as e: pass img.paste(name_timage, (x_offset, 3)) x_offset += (name_timage.size[0] +2) img.paste(wins_timage, (x_offset, 3)) x_offset += (wins_timage.size[0] +2) img.paste(loss_timage, (x_offset, 3)) x_offset += (loss_timage.size[0] +2) img.paste(draw_timage, (x_offset, 3)) x_offset += (draw_timage.size[0]+10) x_offset += 25 img1 = img.crop((0,0,x_offset ,16)) imgs.append(img1) except Exception as e: pass return self.stitchImage(imgs) def getLeagueProfessional(self, league=False, time = 'future'): if time in ['past', 'live']: filepath = 'csv/{}_games.json'.format(time) else: filepath = 'csv/upcoming_games.json' f = open(filepath, 'r') all_settings = json.load(f) f.close() title_img = self.openImage('feature_titles/sports_'+ time + '.png') imgs = [] if all_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/sports_{}.png'.format(time)) imgs = [title_img, self.blank] else: imgs = [] leagues_info = all_settings['leagues'] leagues = list(leagues_info.keys()) if time == 'live': for league in leagues: try: x_offset = 0 if league == 'NFL': f = open('csv/live_nfl.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['NFL'][0] elif league == 'NHL': f = open('csv/live_nhl.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['NHL'][0] elif league == 'NBA': f = open('csv/live_nba.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['NBA'][0] elif league == 'MLB': f = open('csv/live_mlb.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['MLB'][0] elif league == 'MLS': f = open('csv/live_mls.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['MLS'][0] elif league == 'PREMIERLEAGUE': f = open('csv/live_pl.json', 'r') all_settings = json.load(f) f.close() league_info = all_settings['leagues']['PREMIERLEAGUE'][0] img = Image.new('RGB', (10000, 32)) try: league_logo = Image.open('logos/sports/league_logos/{}.png'.format(league)).convert('RGB') width, height = league_logo.size league_logo2 = league_logo.resize((int(width/2), int(height/2))) img.paste(league_logo2, (x_offset,0)) x_offset += (league_logo2.size[0]+10) except: pass font = ImageFont.load("./fonts/6x10.pil") small_font = ImageFont.load("./fonts/4x6.pil") try: sports_info = self.readSportsCSV(league) except: pass buff_size = 20 if all_settings['leagues'][league][2] == 'no_live' and all_settings['leagues'][league][3] == 'no_upcoming': no_match = self.textImage(('No live games').upper(), font, r = 255, g = 255 , b = 255) img.paste(no_match, (x_offset,4)) x_offset += no_match.size[0] elif all_settings['leagues'][league][3] != 'no_upcoming': next_match = self.textImage('Next game: ' + all_settings['leagues'][league][3], font, r=255,g=255,b=255) img.paste(next_match, (x_offset,4)) x_offset += next_match.size[0] else: for match in league_info: if match['isLive'] != 'pre': dateEvent = match['time'] date_timage = self.textImage(dateEvent, small_font, r = 255, g = 255, b = 255) strHomeTeam = match['home_team'] strAwayTeam = match['away_team'] intHomeScore = str(match['home_score']) intAwayScore = str(match['away_score']) try: home_logo = Image.open('logos/sports/{}/{}'.format(league, sports_info[strHomeTeam]['logo'])) width1, height1 = home_logo.size home_logo1 = home_logo.resize((int(width1/2), int(height1/2))) except Exception as e: home_logo1 = self.textImage(strHomeTeam, small_font, r = 255, g = 255, b = 255) try: away_logo = Image.open('logos/sports/{}/{}'.format(league, sports_info[strAwayTeam]['logo'])) width2, height2 = away_logo.size away_logo1 = away_logo.resize((int(width2/2), int(height2/2))) except Exception as e: away_logo1 = self.textImage(strAwayTeam, small_font, r = 255, g = 255, b = 255) error = False img.paste(away_logo1, (x_offset,0)) x_offset += (away_logo1.size[0] + 2) score_image = self.textImage(intAwayScore + '-' + intHomeScore, font, h_buff = 5, r = 255, g = 255, b = 255) try: h_colour = mcolors.to_rgb(sports_info[strHomeTeam]['colour'].replace(' ', '')) except: pass try: a_colour = mcolors.to_rgb(sports_info[strAwayTeam]['colour'].replace(' ', '')) except: pass try: hc_timage = self.textImage(sports_info[strHomeTeam]['code'], font, r = int(h_colour[0]*255), g = int(h_colour[1]*255), b = int(h_colour[2]*255)) except: hc_timage = self.textImage('.', small_font, r = 255, g = 255, b = 255) error = True try: ac_timage = self.textImage(sports_info[strAwayTeam]['code'], font, r = int(a_colour[0]*255), g = int(a_colour[1]*255), b = int(a_colour[2]*255)) except: ac_timage = self.textImage('.', small_font, r = 255, g = 255, b = 255) error = True if date_timage.size[0] > (hc_timage.size[0] + 2 + score_image.size[0] + ac_timage.size[0]): x_offset10 = x_offset + int((date_timage.size[0]/2)-(score_image.size[0]/2)-ac_timage.size[0]) img.paste(date_timage,(x_offset, 0)) img.paste(score_image, (x_offset + int((date_timage.size[0]/2)-(score_image.size[0]/2)), 5)) x_offset += date_timage.size[0] img.paste(ac_timage,(x_offset10, 5)) if match['isLive'] == 'post': if int(intHomeScore) < int(intAwayScore) or int(intHomeScore) == int(intAwayScore): ua_image = Image.new("RGB", (ac_timage.size[0] -3, 1)) ua_image1 = ImageDraw.Draw(ua_image) ua_image1.line((0,0,ac_timage.size[0]-3,0), fill="red", width = 0) img.paste(ua_image, (x_offset10, ac_timage.size[1]+4)) x_offset10 += ac_timage.size[0] + score_image.size[0] img.paste(hc_timage,(x_offset10, 5)) if match['isLive'] == 'post': if int(intHomeScore) > int(intAwayScore) or int(intHomeScore) == int(intAwayScore): u_image = Image.new("RGB", (hc_timage.size[0] -3, 1)) u_image1 = ImageDraw.Draw(u_image) u_image1.line((0,0,hc_timage.size[0]-3,0), fill="red", width = 0) img.paste(u_image, (x_offset10, hc_timage.size[1]+4)) x_offset10 += hc_timage.size[0] if error: img.paste(home_logo1, (max(x_offset + date_timage.size[0], x_offset10),0)) x_offset += (home_logo1.size[0] + date_timage.size[0]) else: img.paste(home_logo1, (max(x_offset,x_offset10),0)) x_offset += home_logo1.size[0] else: x_offset_date = (x_offset + ac_timage.size[0] + int(score_image.size[0]/2) - int(date_timage.size[0]/2)) img.paste(date_timage, (x_offset_date,0)) #img.paste(date_timage, (x_offset+20+int((score_image.size[0] - date_timage.size[0])/2),0)) img.paste(ac_timage, (x_offset, 5)) if match['isLive'] == 'post': if int(intHomeScore) < int(intAwayScore) or int(intHomeScore) == int(intAwayScore): ua_image = Image.new("RGB", (ac_timage.size[0] -3, 1)) ua_image1 = ImageDraw.Draw(ua_image) ua_image1.line((0,0,ac_timage.size[0]-3,0), fill="red", width = 0) img.paste(ua_image, (x_offset, ac_timage.size[1]+4)) x_offset += ac_timage.size[0] img.paste(score_image, (x_offset, 5)) x_offset += score_image.size[0] img.paste(hc_timage, (x_offset, 5)) if match['isLive'] == 'post': if int(intHomeScore) > int(intAwayScore) or int(intHomeScore) == int(intAwayScore): u_image = Image.new("RGB", (hc_timage.size[0] -3, 1)) u_image1 = ImageDraw.Draw(u_image) u_image1.line((0,0,hc_timage.size[0]-3,0), fill="red", width = 0) img.paste(u_image, (x_offset, hc_timage.size[1]+4)) x_offset += hc_timage.size[0] x_offset_date += date_timage.size[0] if error: img.paste(home_logo1, (max(x_offset + date_timage.size[0], x_offset_date),0)) x_offset += (home_logo1.size[0] + date_timage.size[0]) else: img.paste(home_logo1, (max(x_offset,x_offset_date),0)) x_offset += home_logo1.size[0] x_offset += buff_size x_offset += 20 img = img.crop((0,0,x_offset ,16)) imgs.append(img) except: pass else: for league in leagues: try: x_offset = 0 img = Image.new('RGB', (10000, 32)) league_info = leagues_info[league] #league logo try: league_logo = Image.open('logos/sports/league_logos/{}.png'.format(league)).convert('RGB') width, height = league_logo.size league_logo2 = league_logo.resize((int(width/2), int(height/2))) if (league == 'PGA') or (league == 'LPGA') or (league == 'PGA_EU') or (league == 'LIV') or (league == 'NASCAR') or (league == 'F1'): x_offset += 10 else: img.paste(league_logo2, (x_offset,0)) x_offset += (league_logo2.size[0]+10) except: pass font = ImageFont.load("./fonts/6x10.pil") small_font = ImageFont.load("./fonts/4x6.pil") try: sports_info = self.readSportsCSV(league) except: pass buff_size = 20 if league == 'UFC': try: date_img = self.textImage(league_info[0]['date'], small_font, r=0,g=150,b=255) eventname_img = self.textImage(league_info[0]['name'].upper(), font, r=255, g=0, b=0) venue_img = self.textImage(league_info[0]['venue'], small_font, r=255, g=255, b=0) city_img = self.textImage(league_info[0]['city'], small_font, r=255, g=255, b=255) try: country_img = self.textImage(league_info[0]['country'], small_font, r=255, g=128, b=0) except: pass broadcast_img = self.textImage(league_info[0]['broadcast'], small_font, r=255, g=0, b=0) time_img = self.textImage(league_info[0]['time'], small_font, r =0, g=150, b=255) try: img.paste(country_img, (x_offset + eventname_img.size[0] + 2, 2)) except: country_img = 0 pass img.paste(eventname_img, (x_offset, 0)) img.paste(city_img, (x_offset + date_img.size[0] + 3 + time_img.size[0] + 3 + broadcast_img.size[0] + 7 + venue_img.size[0] + 3, 10)) img.paste(venue_img, (x_offset + date_img.size[0] + 3 + time_img.size[0] + 3 + broadcast_img.size[0] + 7,10)) img.paste(broadcast_img, (x_offset + date_img.size[0] + 3 + time_img.size[0] + 3, 10)) img.paste(date_img, (x_offset, 10)) img.paste(time_img, (x_offset + date_img.size[0] + 3, 10)) try: x_offset = 10 + max(x_offset + eventname_img.size[0] + 2 + country_img.size[0], x_offset + date_img.size[0] + 3 + time_img.size[0] + 3 + broadcast_img.size[0] + 7 + venue_img.size[0] + 3 + city_img.size[0]) except: x_offset = 10 + max(x_offset + eventname_img.size[0], x_offset + date_img.size[0] + 3 + time_img.size[0] + 3 + broadcast_img.size[0] + 7 + venue_img.size[0] + 3 + city_img.size[0]) for fight in league_info[0]['fights']: try: if time != 'past': fighter1_img = Image.open('logos/ufc/{}.png'.format(fight['fighter1id'])) elif time == 'past': fighter1_img = Image.open('logos/ufc_past/{}.png'.format(fight['fighter1id'])) fighter1_img.thumbnail((9000,16)) except: fighter1_img = Image.open('logos/unknown.png') fighter1_img.thumbnail((9000,16)) pass draw = ImageDraw.Draw(img, "RGBA") name1_img = self.textImage(fight['fighter1name'].split(' ',1)[0][0] + '.' + fight['fighter1name'].split(' ',1)[1], small_font, r=255,g=255,b=255) max_fighter1pic = max(name1_img.size[0],fighter1_img.size[0]) img.paste(fighter1_img, (x_offset + int(max_fighter1pic/2) - int(fighter1_img.size[0]/2), 0), mask=fighter1_img) draw.rectangle([(x_offset,16),(x_offset + name1_img.size[0]-4,10)], fill=(5,5,5,200)) draw.text((x_offset + int(max_fighter1pic/2) - int(name1_img.size[0]/2),10), fight['fighter1name'].split(' ',1)[0][0] + '.' + fight['fighter1name'].split(' ',1)[1], fill=(255,255,255),font=small_font) try: country1_img = Image.open('logos/ufc_countries/{}'.format(fight['fighter1country'].split('/')[-1].split('&')[0])) country1_img.thumbnail((9000,8)) img.paste(country1_img,(x_offset, 0)) except: pass x_offset += max_fighter1pic try: if time != 'past': fighter2_img = Image.open('logos/ufc/{}.png'.format(fight['fighter2id'])) elif time == 'past': fighter2_img = Image.open('logos/ufc_past/{}.png'.format(fight['fighter2id'])) fighter2_img.thumbnail((9000,16)) except: fighter2_img = Image.open('logos/unknown.png') fighter2_img.thumbnail((9000,16)) pass weight_img = self.textImage(fight['weight_div'].upper(), small_font, r=255,g=0,b=0) vs_img = self.textImage('VS', small_font, r=255,g=255,b=255) if time != 'past': odds1_img = self.textImage(fight['fighter1odds'], small_font, r=0, g=255, b=0) odds2_img = self.textImage(fight['fighter2odds'], small_font, r=0, g=255, b=0) max_middle = max(vs_img.size[0] + odds1_img.size[0] + odds2_img.size[0], weight_img.size[0]) img.paste(weight_img, (x_offset + int(max_middle/2) - int(weight_img.size[0]/2), 1)) img.paste(odds1_img, (x_offset + int(max_middle/2) - int(vs_img.size[0]/2) - odds1_img.size[0],8)) img.paste(vs_img, (x_offset + int(max_middle/2) - int(vs_img.size[0]/2),8)) img.paste(odds2_img, (x_offset + int(max_middle/2) + int(vs_img.size[0]/2),8)) elif time == 'past': if fight['fighter1win']: win1_img = self.textImage('WIN', small_font, r=0, g=255, b=0) win2_img = self.textImage('LOSS', small_font, r=255, g=0, b=0) elif not fight['fighter1win'] and not fight['fighter2win']: win1_img = self.textImage('DRAW', small_font, r=80, g=80, b=80) win2_img = self.textImage('DRAW', small_font, r=80, g=80, b=80) else: win1_img = self.textImage('LOSS', small_font, r=255, g=0, b=0) win2_img = self.textImage('WIN', small_font, r=0, g=255, b=0) max_middle = max(vs_img.size[0] + win1_img.size[0] + win2_img.size[0], weight_img.size[0]) img.paste(weight_img, (x_offset + int(max_middle/2) - int(weight_img.size[0]/2), 1)) img.paste(win1_img, (x_offset + int(max_middle/2) - int(vs_img.size[0]/2) - int(win1_img.size[0]),8)) img.paste(vs_img, (x_offset + int(max_middle/2) - int(vs_img.size[0]/2),8)) img.paste(win2_img, (x_offset + int(max_middle/2) + int(vs_img.size[0]/2),8)) x_offset += max_middle name2_img = self.textImage(fight['fighter2name'].split(' ',1)[0][0] + '.' + fight['fighter2name'].split(' ',1)[1], small_font, r=255,g=255,b=255) max_fighter2pic = max(name2_img.size[0],fighter2_img.size[0]) img.paste(fighter2_img, (x_offset + int(max_fighter2pic/2) - int(fighter2_img.size[0]/2), 0), mask=fighter2_img) draw.rectangle([(x_offset,16),(x_offset + name2_img.size[0]-4,10)], fill=(5,5,5,200)) draw.text((x_offset + int(max_fighter2pic/2) - int(name2_img.size[0]/2),10), fight['fighter2name'].split(' ',1)[0][0] + '.' + fight['fighter2name'].split(' ',1)[1], fill=(255,255,255),font=small_font) try: country2_img = Image.open('logos/ufc_countries/{}'.format(fight['fighter2country'].split('/')[-1].split('&')[0])) country2_img.thumbnail((9000,8)) img.paste(country2_img,(x_offset + max_fighter2pic - country2_img.size[0] - 2, 0)) except: pass x_offset += max_fighter2pic + 15 except: pass # DONT FORGET TO CHANGE DIRECTORY FOR PAST UFC GAMES else: for match in league_info: try: dateEvent = match['date2'] except: dateEvent = match['date'].replace('-', '.') if time == 'future': try: date_timage = self.textImage(dateEvent + ' ' + match['time'].replace("EST","").replace('PM','P').replace('AM','A').replace('CET',''), small_font, r = 255, g = 255, b = 255) except: date_timage = self.textImage(dateEvent, small_font, r = 255, g = 255, b = 255) else: date_timage = self.textImage(dateEvent, small_font, r = 255, g = 255, b = 255) if (league == 'PGA') or (league == 'LPGA') or (league == 'PGA_EU') or (league == 'LIV') or (league == 'NASCAR') or (league == 'F1'): event = match['event'] venue = match['venue'] city = match['city'] country = match['country'] season = match['season'] if (time != 'future') and (league != 'LIV'): golf_standings1 = match['golf_rankings'][::2] golf_standings2 = match['golf_rankings'][1::2] elif (time!= 'future') and (league == 'LIV'): golf_standings1 = match['golf_rankings'][::2] golf_standings2 = match['golf_rankings'][1::2] img.paste(league_logo2, (x_offset, 0)) x_offset += league_logo2.size[0] + 5 try: if match['purse'] != 'N/A' and match['purse'] != "" and match['purse'] != '0': purse_timage = self.textImage(match['purse'], small_font, r=0,g=255,b=0) except: pass try: if match['shots_par'] != 'N/A' and match['shots_par'] != "" and match['shots_par'] != 0: par_timage = self.textImage('Par' + str(match['shots_par']), small_font, r=255,g=127,b=80) except: pass try: if match['total_yards'] != 'N/A' and match['total_yards'] != "" and match['total_yards'] != 0: yards_timage = self.textImage(str(match['total_yards']) + 'yds', small_font, r=255,g=127,b=80) except: pass if time == 'future': event_timage = self.textImage(event, small_font, r=255, g=255, b=0) venue_timage = self.textImage(venue, small_font, r=0, g=255, b=0) city_timage = self.textImage(city, small_font, r=255, g=255, b=255) country_timage = self.textImage(country, small_font, r=255, g=255, b=255) season1_timage = self.textImage('Season:', small_font, r=0, g=170, b=255) season_timage = self.textImage(season, small_font, r=255, g=255, b=255) date1_timage = self.textImage('Date:', small_font, r=255, g=0, b=171) #event img.paste(event_timage, (x_offset, 1)) #venue img.paste(venue_timage,(x_offset, 9)) x_offset += (max(event_timage.size[0], venue_timage.size[0]) + 5) x_offset_2nd = x_offset #date img.paste(date1_timage, (x_offset, 1)) x_offset += date1_timage.size[0] img.paste(date_timage, (x_offset, 1)) x_offset += date_timage.size[0] + 5 #city img.paste(city_timage,(x_offset_2nd, 9)) x_offset_2nd += city_timage.size[0] + 7 #country img.paste(country_timage,(x_offset_2nd,9)) x_offset_2nd += country_timage.size[0] + 5 #season img.paste(season1_timage,(x_offset,1)) x_offset += season1_timage.size[0] img.paste(season_timage,(x_offset,1)) x_offset += season_timage.size[0] + 5 try: if match['purse'] != 'N/A' and match['purse'] != "" and match['purse'] != '0': img.paste(purse_timage, (x_offset, 1)) x_offset += purse_timage.size[0] + 5 except: pass try: if match['total_yards'] != 'N/A' and match['total_yards'] != "" and match['total_yards'] != 0: img.paste(yards_timage, (x_offset_2nd, 9)) x_offset_2nd += yards_timage.size[0] + 5 except: pass try: if match['shots_par'] != 'N/A' and match['shots_par'] != "" and match['shots_par'] != 0: img.paste(par_timage, (x_offset_2nd, 9)) x_offset_2nd += par_timage.size[0] + 5 except: pass x_offset = max(x_offset, x_offset_2nd) #x_offset += max(date1_timage.size[0] + 2 + date_timage.size[0] + season1_timage.size[0] + 5 + season_timage.size[0], city_timage.size[0] + 7 + country_timage.size[0]) x_offset += (buff_size - 10) else: event_timage = self.textImage(event, small_font, r=255, g=255, b=0) venue_timage = self.textImage(venue, small_font, r=0, g=255, b=0) city_timage = self.textImage(city, small_font, r=255, g=255, b=255) country_timage = self.textImage(country, small_font, r=255, g=255, b=255) season1_timage = self.textImage('Season:', small_font, r=0, g=170, b=255) season_timage = self.textImage(season, small_font, r=255, g=255, b=255) date1_timage = self.textImage('Date:', small_font, r=255, g=0, b=171) #event img.paste(event_timage, (x_offset, 1)) #venue img.paste(venue_timage,(x_offset, 9)) x_offset += (max(event_timage.size[0], venue_timage.size[0]) + 5) x_offset_2nd = x_offset #date img.paste(date1_timage, (x_offset, 1)) x_offset += date1_timage.size[0] img.paste(date_timage, (x_offset, 1)) x_offset += date_timage.size[0] + 5 #city img.paste(city_timage,(x_offset_2nd, 9)) x_offset_2nd += city_timage.size[0] + 7 #country img.paste(country_timage,(x_offset_2nd,9)) x_offset_2nd += country_timage.size[0] + 5 #season img.paste(season1_timage,(x_offset,1)) x_offset += season1_timage.size[0] img.paste(season_timage,(x_offset,1)) x_offset += season_timage.size[0] + 5 try: if match['purse'] != 'N/A' and match['purse'] != "" and match['purse'] != '0': img.paste(purse_timage, (x_offset, 1)) x_offset += purse_timage.size[0] + 5 except: pass try: if match['total_yards'] != 'N/A' and match['total_yards'] != "" and match['total_yards'] != 0: img.paste(yards_timage, (x_offset_2nd, 9)) x_offset_2nd += yards_timage.size[0] + 5 except: pass try: if match['shots_par'] != 'N/A' and match['shots_par'] != "" and match['shots_par'] != 0: img.paste(par_timage, (x_offset_2nd, 9)) x_offset_2nd += par_timage.size[0] + 5 except: pass x_offset = max(x_offset, x_offset_2nd) #x_offset += max(date1_timage.size[0] + 2 + date_timage.size[0] + season1_timage.size[0] + 5 + season_timage.size[0], city_timage.size[0] + 7 + country_timage.size[0]) symbol1_timage = self.textImage('|', small_font, r=255, g=255, b=0) for each_player, each_player2 in zip(golf_standings1, golf_standings2): img.paste(symbol1_timage, (x_offset, 1)) img.paste(symbol1_timage, (x_offset, 9)) x_offset += symbol1_timage.size[0] + 2 golf1_offset = 0 golf2_offset = 0 try: golf1_rank_timage = self.textImage(each_player['rank'], small_font, r=255, g=255, b=255) img.paste(golf1_rank_timage,(x_offset, 1)) golf1_offset += golf1_rank_timage.size[0] + 2 try: golf1_country = Image.open('logos/ufc_countries/{}'.format(each_player['country'].split('/')[-1].split('&')[0])) golf1_country.thumbnail((9000,9)) img.paste(golf1_country,(golf1_offset + x_offset, -1)) golf1_offset += golf1_country.size[0] + 2 except: pass golf_standings1_timage = self.textImage(each_player['name'] + ' ' + each_player['score'], small_font, r=255, g=255, b=255) img.paste(golf_standings1_timage, (x_offset + golf1_offset, 1)) golf1_offset += golf_standings1_timage.size[0] except: pass try: golf2_rank_timage = self.textImage(each_player2['rank'], small_font, r=255, g=255, b=255) golf2_offset += golf2_rank_timage.size[0] + 2 img.paste(golf2_rank_timage,(x_offset, 9)) try: golf2_country = Image.open('logos/ufc_countries/{}'.format(each_player2['country'].split('/')[-1].split('&')[0])) golf2_country.thumbnail((9000,9)) img.paste(golf2_country,(x_offset + golf2_offset, 7)) golf2_offset += golf2_country.size[0] + 2 except: pass golf_standings2_timage = self.textImage(each_player2['name'] + ' ' + each_player2['score'], small_font, r=255, g=255, b=255) img.paste(golf_standings2_timage, (x_offset + golf2_offset, 9)) golf2_offset += golf_standings2_timage.size[0] except: pass x_offset += max(golf2_offset, golf1_offset) + 5 # for each_player in golf_standings1: # symbol1_timage = self.textImage('|', small_font, r=255, g=255, b=0) # img.paste(symbol1_timage, (x_offset + 5, 1)) # golf_standings1_timage = self.textImage(each_player, small_font, r=255, g=255, b=255) # img.paste(golf_standings1_timage, (x_offset + symbol1_timage.size[0] + 7, 1)) # x_offset += (golf_standings1_timage.size[0] + symbol1_timage.size[0] + 7) # # for each_player2 in golf_standings2: # symbol2_timage = self.textImage('|', small_font, r=255, g=255, b=0) # img.paste(symbol2_timage, (x_offset2 + 5, 9)) # golf_standings2_timage = self.textImage(each_player2, small_font, r=255, g=255, b=255) # img.paste(golf_standings2_timage, (x_offset2 + symbol2_timage.size[0] + 7, 9)) # x_offset2 += (golf_standings2_timage.size[0] + symbol2_timage.size[0] + 7) x_offset += (buff_size - 10) else: strHomeTeam = match['home_team'] strAwayTeam = match['away_team'] if time != 'future': intHomeScore = str(match['home_score']) intAwayScore = str(match['away_score']) try: home_logo = Image.open('logos/sports/{}/{}'.format(league, sports_info[strHomeTeam]['logo'])) width1, height1 = home_logo.size home_logo1 = home_logo.resize((int(width1/2), int(height1/2))) except Exception as e: home_logo1 = self.textImage(strHomeTeam, small_font, r = 255, g = 255, b = 255) try: away_logo = Image.open('logos/sports/{}/{}'.format(league, sports_info[strAwayTeam]['logo'])) width2, height2 = away_logo.size away_logo1 = away_logo.resize((int(width2/2), int(height2/2))) except Exception as e: away_logo1 = self.textImage(strAwayTeam, small_font, r = 255, g = 255, b = 255) error = False img.paste(away_logo1, (x_offset,0)) x_offset += (away_logo1.size[0] + 2) if time == 'future': try: h_colour = mcolors.to_rgb(sports_info[strHomeTeam]['colour'].replace(' ', '')) except: pass try: a_colour = mcolors.to_rgb(sports_info[strAwayTeam]['colour'].replace(' ', '')) except: pass try: hc_timage = self.textImage(sports_info[strHomeTeam]['code'], font, r = int(h_colour[0]*255), g = int(h_colour[1]*255), b = int(h_colour[2]*255)) except: hc_timage = self.textImage('.', small_font, r = 255, g = 255, b = 255) error = True try: ac_timage = self.textImage(sports_info[strAwayTeam]['code'], font, r = int(a_colour[0]*255), g = int(a_colour[1]*255), b = int(a_colour[2]*255)) except: ac_timage = self.textImage('.', small_font, r = 255, g = 255, b = 255) error = True vs_timage = self.textImage('vs', font, r = 255, g = 255, b = 255, h_buff = 5) x_offsetdate2 = x_offset + int((hc_timage.size[0] + vs_timage.size[0] + ac_timage.size[0])/2)- int(date_timage.size[0]/2) if date_timage.size[0] > (ac_timage.size[0] + vs_timage.size[0] + hc_timage.size[0]): x_offset3 = x_offset + int(date_timage.size[0]/2) img.paste(date_timage, (x_offset,0)) x_offset += date_timage.size[0] img.paste(ac_timage, (x_offset3 - int(ac_timage.size[0]) - int(vs_timage.size[0]/2), 5)) img.paste(vs_timage, (x_offset3 - int(vs_timage.size[0]/2), 5)) img.paste(hc_timage, (x_offset3 + int(vs_timage.size[0]/2), 5)) else: img.paste(date_timage, (x_offsetdate2,0)) x_offsetdate2 += date_timage.size[0] img.paste(ac_timage, (x_offset, 5)) x_offset += ac_timage.size[0] img.paste(vs_timage, (x_offset, 5)) x_offset += vs_timage.size[0] img.paste(hc_timage, (x_offset, 5)) x_offset += hc_timage.size[0] else: score_image = self.textImage(intAwayScore + '-' + intHomeScore, font, h_buff = 5, r = 255, g = 255, b = 255) try: h_colour = mcolors.to_rgb(sports_info[strHomeTeam]['colour'].replace(' ', '')) except: pass try: a_colour = mcolors.to_rgb(sports_info[strAwayTeam]['colour'].replace(' ', '')) except: pass try: hc_timage = self.textImage(sports_info[strHomeTeam]['code'], font, r = int(h_colour[0]*255), g = int(h_colour[1]*255), b = int(h_colour[2]*255)) except: hc_timage = self.textImage('.', small_font, r = 255, g = 255, b = 255) error = True try: ac_timage = self.textImage(sports_info[strAwayTeam]['code'], font, r = int(a_colour[0]*255), g = int(a_colour[1]*255), b = int(a_colour[2]*255)) except: ac_timage = self.textImage('.', small_font, r = 255, g = 255, b = 255) error = True x_offsetdate2 = x_offset + ac_timage.size[0] + int(score_image.size[0]/2)- int(date_timage.size[0]/2) img.paste(date_timage, (x_offsetdate2,0)) x_offsetdate2 += date_timage.size[0] #img.paste(date_timage, (x_offset+20+int((score_image.size[0] - date_timage.size[0])/2),0)) img.paste(ac_timage, (x_offset, 5)) if int(intHomeScore) < int(intAwayScore) or int(intHomeScore) == int(intAwayScore): ua_image = Image.new("RGB", (ac_timage.size[0] -3, 1)) ua_image1 = ImageDraw.Draw(ua_image) ua_image1.line((0,0,ac_timage.size[0]-3,0), fill="red", width = 0) img.paste(ua_image, (x_offset, ac_timage.size[1]+4)) x_offset += ac_timage.size[0] img.paste(score_image, (x_offset, 5)) x_offset += score_image.size[0] img.paste(hc_timage, (x_offset, 5)) if int(intHomeScore) > int(intAwayScore) or int(intHomeScore) == int(intAwayScore): u_image = Image.new("RGB", (hc_timage.size[0] -3, 1)) u_image1 = ImageDraw.Draw(u_image) u_image1.line((0,0,hc_timage.size[0]-3,0), fill="red", width = 0) img.paste(u_image, (x_offset, hc_timage.size[1]+4)) x_offset += hc_timage.size[0] if error: img.paste(home_logo1, (max(x_offset + date_timage.size[0], x_offsetdate2),0)) x_offset += (home_logo1.size[0] + date_timage.size[0]) else: img.paste(home_logo1, (max(x_offset, x_offsetdate2),0)) x_offset += home_logo1.size[0] x_offset += buff_size x_offset += 20 #INDENT THIS OR NO? img = img.crop((0,0,x_offset ,16)) imgs.append(img) except: pass return self.stitchImage(imgs) def convertTemp(self,temp, setting): if setting == 'kelvin': temp = temp+ 273.15 elif setting == 'fahrenheit': temp = temp*9/5 + 32 return temp def getTodayWeatherImage(self): f = open('csv/current_weather.json', 'r') all_settings = json.load(f) f.close() if all_settings['title']: title_img = self.openImage('feature_titles/weather.png') imgs = [title_img, self.blank] else: imgs = [] current_weathers = all_settings['locations'] locations = list(current_weathers.keys()) for i, location in enumerate(locations): try: current_weather = current_weathers[location] small_font = ImageFont.load("./fonts/5x7.pil") large_font = ImageFont.load("./fonts/10x20.pil") location_img = self.textImage(location.upper(), small_font, r = 255, g = 255, b = 0) main = current_weather['main_weather'] if main == 'Clouds': main = current_weather['description'] if main == 'Rain': main = current_weather['description'] weather_ids = {'Clear': '01', 'few clouds': '02', 'scattered clouds': '03', 'broken clouds':'04', 'overcast clouds':'04', 'Drizzle':'09', 'Rain':'10', 'Thunderstorm':'11', 'Snow':'13', 'Mist': '50', 'Smoke': '50', 'Haze': '50', 'Dust': '50', 'Fog': '50', 'Sand': '50', 'Ash': '50', 'Squall': '50', 'Tornado': '50', 'light rain': '10', 'moderate rain': '10', 'heavy intensity rain': '10', 'very heavy rain': '10', 'extreme rain': '10', 'freezing rain': '13', 'light intensity shower rain': '09', 'shower rain': '09', 'heavy intensity shower rain': '09', 'ragged shower rain': '09'} weather_dir = './logos/weather_icons' weather_img = Image.open(weather_dir + '/weather_type_icons/' + weather_ids[main] + '.png') temp = self.convertTemp(current_weather['temp'], all_settings['temp']) feels_temp = self.convertTemp(current_weather['feels_like'], all_settings['temp']) temp_img = self.textImage(str("{0:.0f}".format(temp)), large_font) deg_img = self.textImage('o', small_font) main = current_weather['main_weather'] main_img = self.textImage(main.upper(), small_font) feels_img = self.textImage('Feels like:'.upper() + str("{0:.0f}".format(feels_temp)), small_font) min_img = self.textImage( "{0:.0f}".format(self.convertTemp(current_weather['min_temp'], all_settings['temp'])), small_font, r=0, g=0, b=255) max_img = self.textImage( "{0:.0f}".format(self.convertTemp(current_weather['max_temp'], all_settings['temp'])), small_font, r=255, g=0, b=0) hum_img = Image.open(weather_dir + '/humidity.png') htext_img = self.textImage(str(current_weather['humidity']) + '%', small_font) uv_img = Image.open(weather_dir + '/uv.png') utext_img = self.textImage(str(round(current_weather['uv'], 1)) , small_font) weekdays = ['Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun'] months =['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'] month = months[int(datetime.now().strftime('%m'))-1] date = str(int(datetime.now().strftime('%d'))) weekday = weekdays[datetime.today().weekday()] date_img = self.textImage((month + ' ' + date + ',' + weekday).upper(), small_font) rain_img = Image.open(weather_dir + '/rain-chance.png') rtext_img = self.textImage(str(current_weather['rain_chance']) + '%', small_font) cloud_img = Image.open(weather_dir + '/clouds.png') ctext_img = self.textImage(str(current_weather['clouds']) + '%', small_font) wind_img = Image.open(weather_dir + '/wind.png') w_speed = current_weather['wind_speed'] w_unit = 'K/H' if all_settings["wind_speed"] == "miles/hour": w_speed = current_weather['wind_speed']/1.609 w_unit = 'M/H' wtext_img = self.textImage("{0:.0f}".format(w_speed) + w_unit, small_font) wdir_img = self.textImage(self.degreesToCompass(current_weather['wind_direction']).upper(), small_font) vis_img = Image.open(weather_dir + '/visibility.png') vtext_img = self.textImage(str(round(current_weather['visibility']/1000, 1)) + 'km'.upper(), small_font) '------------------------------------------' img = Image.new('RGB', (1000, 32)) img.paste(weather_img, (5,9)) x_offset = 5 + weather_img.size[0] + 1 img.paste(main_img, (x_offset, 26)) img.paste(temp_img, (x_offset + main_img.size[0]//2 - temp_img.size[0]//2,9)) img.paste(deg_img, (x_offset + main_img.size[0]//2 - temp_img.size[0]//2 + temp_img.size[0], 8)) x_offset += max( main_img.size[0], temp_img.size[0] + deg_img.size[0]) img.paste(min_img, (x_offset - 0, 12)) img.paste(max_img, (x_offset - 0, 21)) x_offset += max(min_img.size[0], max_img.size[0]) + 2 img.paste(hum_img, ( x_offset - 1, 8)) img.paste(uv_img, ( x_offset - 1, 22)) img.paste(htext_img, (x_offset + hum_img.size[0], 10)) img.paste(utext_img, (x_offset + uv_img.size[0], 23)) x_offset += max(hum_img.size[0], uv_img.size[0]+2) x_offset += max(htext_img.size[0], utext_img.size[0]) + 6 img.paste(rain_img, (x_offset,8)) img.paste(cloud_img, (x_offset,20)) img.paste(ctext_img, (x_offset + cloud_img.size[0] + 2, 22)) img.paste(rtext_img, (x_offset + rain_img.size[0]+ 2, 10)) x_offset += max(cloud_img.size[0], rain_img.size[0])+6 x_offset += max(ctext_img.size[0], rtext_img.size[0])+6 img.paste(wind_img, (x_offset,8)) img.paste(vis_img, (x_offset,20)) img.paste(wtext_img, (x_offset + wind_img.size[0] + 2, 10)) img.paste(vtext_img, (x_offset + vis_img.size[0] + 2, 22)) x_offset += wind_img.size[0] + wtext_img.size[0] + 4 img.paste(wdir_img, (x_offset, 10)) img.paste(location_img, (5,0)) img.paste(feels_img, (location_img.size[0] + 10, 0)) img.paste(date_img, (location_img.size[0] + feels_img.size[0] + 15, 0)) img = img.crop((0,0,max(x_offset +wdir_img.size[0] + 4, location_img.size[0] + feels_img.size[0] + 15 + date_img.size[0]) ,32)) imgs.append(img) imgs.append(self.blank) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() return self.stitchImage(imgs) def getTodayWeatherProfessional(self): f = open('csv/current_weather.json', 'r') all_settings = json.load(f) f.close() if all_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/weather.png') image_list = [title_img, Image.new('RGB', (3, 16))] else: image_list = [] current_weathers = all_settings['locations'] locations = list(current_weathers.keys()) weekdays = ['Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun'] months =['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'] month = months[int(datetime.now().strftime('%m'))-1] date = str(int(datetime.now().strftime('%d'))) weekday = weekdays[datetime.today().weekday()] for i, location in enumerate(locations): try: img = Image.new('RGB', (1000, 32)) current_weather = current_weathers[location] small_font = ImageFont.load("./fonts/4x6.pil") font = ImageFont.load("./fonts/6x10.pil") large_font = ImageFont.load("./fonts/10x20.pil") main = current_weather['main_weather'] if main == 'Clouds': main = current_weather['description'] if main == 'Rain': main = current_weather['description'] weather_ids = {'Clear': '01', 'few clouds': '02', 'scattered clouds': '03', 'broken clouds':'04', 'overcast clouds':'04', 'Drizzle':'09', 'Rain':'10', 'Thunderstorm':'11', 'Snow':'13', 'Mist': '50', 'Smoke': '50', 'Haze': '50', 'Dust': '50', 'Fog': '50', 'Sand': '50', 'Ash': '50', 'Squall': '50', 'Tornado': '50', 'light rain': '10', 'moderate rain': '10', 'heavy intensity rain': '10', 'very heavy rain': '10', 'extreme rain': '10', 'freezing rain': '13', 'light intensity shower rain': '09', 'shower rain': '09', 'heavy intensity shower rain': '09', 'ragged shower rain': '09'} weather_dir = './logos/weather_icons' location_img = self.textImage(location.upper(), font, r = 255, g = 255, b = 0) img.paste(location_img, (5,3)) x_offset = location_img.size[0] + 8 date_img = self.textImage((month + ' ' + date + ',' + weekday).upper(), font) img.paste(date_img, (x_offset, 3)) x_offset += date_img.size[0] + 2 weather_img = Image.open(weather_dir + '/small_icons/' + weather_ids[main] + '.png') w, h = weather_img.size #weather_img = weather_img.resize((int(w/2), int(h/2))) main = current_weather['main_weather'] main_img = self.textImage(main.upper(), font) img.paste(main_img, (x_offset, 3)) x_offset += main_img.size[0] + 2 img.paste(weather_img, (x_offset,3)) x_offset += weather_img.size[0] + 2 temp = self.convertTemp(current_weather['temp'], all_settings['temp']) temp_img = self.textImage(str("{0:.0f}".format(temp)), font) img.paste(temp_img, (x_offset,3)) x_offset += temp_img.size[0]-3 deg_img = self.textImage('o', small_font) img.paste(deg_img, (x_offset+1, 1)) x_offset += deg_img.size[0] -2 min_img = self.textImage( "{0:.0f}".format(self.convertTemp(current_weather['min_temp'], all_settings['temp'])), small_font, r=0, g=0, b=255) img.paste(min_img, (x_offset+2, 2)) max_img = self.textImage( "{0:.0f}".format(self.convertTemp(current_weather['max_temp'], all_settings['temp'])), small_font, r=255, g=0, b=0) img.paste(max_img, (x_offset+2, 8)) x_offset += max_img.size[0] + 2 hum_img = Image.open(weather_dir + '/humidity.png') htext_img = self.textImage(str(current_weather['humidity']) + '%', font) uv_img = Image.open(weather_dir + '/uv.png') utext_img = self.textImage(str(round(current_weather['uv'], 1)), font) rain_img = Image.open(weather_dir + '/rain-chance.png') rtext_img = self.textImage(str(current_weather['rain_chance']) + '%', font) cloud_img = Image.open(weather_dir + '/clouds.png') ctext_img = self.textImage(str(current_weather['clouds']) + '%', font) wind_img = Image.open(weather_dir + '/wind.png') w_speed = current_weather['wind_speed'] w_unit = 'K/H' if all_settings["wind_speed"] == "miles/hour": w_speed = current_weather['wind_speed']/1.609 w_unit = 'M/H' wtext_img = self.textImage("{0:.0f}".format(w_speed) + w_unit, font) wdir_img = self.textImage(self.degreesToCompass(current_weather['wind_direction']).upper(), font) vis_img = Image.open(weather_dir + '/visibility.png') vtext_img = self.textImage(str(current_weather['visibility']/1000) + 'km', font) for image in [hum_img, htext_img, uv_img, utext_img, rain_img, rtext_img, cloud_img, ctext_img, wind_img, wtext_img, wdir_img, vis_img, vtext_img]: img.paste(image, (x_offset, 3)) x_offset += image.size[0] + 2 img = img.crop((0,0,x_offset +image.size[0] ,16)) image_list.append(img) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() return self.stitchImage(image_list) def getDailyWeatherImageAlt(self): f = open( "csv/weather_location.txt", 'r' ) location = f.read() f.close() img = Image.new('RGB', (128, 32)) current_weather = json.load(open('csv/current_weather.json', 'r')) small_font = ImageFont.load("./fonts/5x7.pil") extra_small_font = ImageFont.load("./fonts/4x6.pil") large_font = ImageFont.load("./fonts/10x20.pil") location_img = self.textImage(location, extra_small_font, r = 255, g = 255, b = 0) main = current_weather['main_weather'] if main == 'Clouds': main = current_weather['description'] weather_ids = {'Clear': '01', 'few clouds': '02', 'scattered clouds': '03', 'broken clouds':'04', 'overcast clouds':'04', 'Drizzle':'09', 'Rain':'10', 'Thunderstorm':'11', 'Snow':'13', 'Mist': '50', 'Smoke': '50', 'Haze': '50', 'Dust': '50', 'Fog': '50', 'Sand': '50', 'Ash': '50', 'Squall': '50', 'Tornado': '50'} weather_dir = './logos/weather_icons' weather_img = Image.open(weather_dir + '/weather_type_icons/' + weather_ids[main] + '.png') temp_img = self.textImage(str("{0:.0f}".format(current_weather['temp'])), large_font) deg_img = self.textImage('o', small_font) min_img = self.textImage( "{0:.0f}".format(current_weather['min_temp']), small_font, r=0, g=0, b=255) max_img = self.textImage( "{0:.0f}".format(current_weather['max_temp']), small_font, r=255, g=0, b=0) main = current_weather['main_weather'] main_img = self.textImage(main, small_font) weekdays = ['Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun'] months =['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'] month = months[int(datetime.now().strftime('%m'))] date = str(int(datetime.now().strftime('%d'))) weekday = weekdays[datetime.today().weekday()] date_img = self.textImage(month + ' ' + date + ',' + weekday, extra_small_font) rain_img = Image.open(weather_dir + '/rain-chance.png') rtext_img = self.textImage(str(int(current_weather['rain_chance']*100)) + '%', extra_small_font) hum_img = Image.open(weather_dir + '/humidity.png') htext_img = self.textImage(str(current_weather['humidity']) + '%', extra_small_font) uv_img = Image.open(weather_dir + '/uv.png') utext_img = self.textImage(str(current_weather['uv']) , extra_small_font) wind_img = Image.open(weather_dir + '/wind.png') wtext_img = self.textImage(str(current_weather['wind_speed']) + 'm/s', extra_small_font) img.paste(location_img, (0,0)) img.paste(weather_img, (0,12)) img.paste(temp_img, (30,9)) img.paste(deg_img, (50, 8)) img.paste(min_img, (55, 10)) img.paste(main_img, (30, 26)) img.paste(max_img, (55, 19)) img.paste(date_img, (location_img.size[0], 1)) img.paste(rain_img, (75,0)) img.paste(rtext_img, (88, 1)) img.paste(hum_img, (102, 0)) img.paste(htext_img, (113, 1)) #img.paste(uv_img, ( 96, 0)) #img.paste(utext_img, (109, 0)) #img.paste(wind_img, (96,0)) #img.paste(wtext_img, (109,0)) img0 = img img = Image.new('RGB', (1000, 32)) daily_weather = json.load(open('csv/daily_weather.json', 'r')) #img.paste(date_img, (70, 0)) x_offset = 64 for i in range(0,len(daily_weather)-1): weekday = weekdays[(datetime.today().weekday() + i)%7] day_img = self.textImage( weekday, small_font) weather = daily_weather[i] main = weather['main_weather'] if main == 'Clouds': main = weather['description'] weather_img = Image.open(weather_dir + '/small_icons/' + weather_ids[main] + '.png') min_img = self.textImage( "{0:.0f}".format(weather['min_temp']), small_font, r=0, g=0, b=255) max_img = self.textImage( "{0:.0f}".format(weather['max_temp']), small_font, r=255, g=0, b=0) img.paste(day_img, (x_offset +5, 9)) img.paste(weather_img, (x_offset +5, 16)) img.paste(min_img, (x_offset + 25, 10)) img.paste(max_img, (x_offset + 25, 20)) x_offset += 35 img1 = img.crop((64,0,x_offset ,32)) img1.save('display_images/weather.ppm') return img0, img1 def getDailyWeatherImage(self): f = open('csv/daily_weather.json', 'r') all_settings = json.load(f) f.close() if all_settings['title']: title_img = self.openImage('feature_titles/forecast.png') imgs = [title_img, self.blank] else: imgs = [] f = open('csv/daily_weather.json', 'r') daily_weathers = json.load(f) f.close() locations = list(daily_weathers['locations'].keys()) for i, location in enumerate(locations): try: img = Image.new('RGB', (1000, 32)) daily_weather = daily_weathers['locations'][location] small_font = ImageFont.load("./fonts/5x7.pil") extra_small_font = ImageFont.load("./fonts/4x6.pil") large_font = ImageFont.load("./fonts/10x20.pil") location_img = self.textImage(location.upper(), small_font, r = 255, g = 255, b = 0) main = daily_weather[0]['main_weather'] if main == 'Clouds': main = daily_weather[0]['description'] if main == 'Rain': main = daily_weather[0]['description'] weather_ids = {'Clear': '01', 'few clouds': '02', 'scattered clouds': '03', 'broken clouds':'04', 'overcast clouds':'04', 'Drizzle':'09', 'Rain':'10', 'Thunderstorm':'11', 'Snow':'13', 'Mist': '50', 'Smoke': '50', 'Haze': '50', 'Dust': '50', 'Fog': '50', 'Sand': '50', 'Ash': '50', 'Squall': '50', 'Tornado': '50', 'light rain': '10', 'moderate rain': '10', 'heavy intensity rain': '10', 'very heavy rain': '10', 'extreme rain': '10', 'freezing rain': '13', 'light intensity shower rain': '09', 'shower rain': '09', 'heavy intensity shower rain': '09', 'ragged shower rain': '09'} weather_dir = './logos/weather_icons' weather_img = Image.open(weather_dir + '/weather_type_icons/' + weather_ids[main] + '.png') temp = self.convertTemp(daily_weather[0]['temp'], daily_weathers['temp']) min_temp = self.convertTemp(daily_weather[0]['min_temp'], daily_weathers['temp']) max_temp = self.convertTemp(daily_weather[0]['max_temp'], daily_weathers['temp']) temp_img = self.textImage(str("{0:.0f}".format(temp)), large_font) deg_img = self.textImage('o', small_font) min_img = self.textImage( "{0:.0f}".format(min_temp, daily_weathers['temp']), small_font, r=0, g=0, b=255) max_img = self.textImage( "{0:.0f}".format(max_temp, daily_weathers['temp']), small_font, r=255, g=0, b=0) main = daily_weather[0]['main_weather'] main_img = self.textImage(main.upper(), small_font) weekdays = ['Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun'] months =['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'] month = months[int(datetime.now().strftime('%m'))-1] date = str(int(datetime.now().strftime('%d'))) weekday = weekdays[datetime.today().weekday()] date_img = self.textImage((month + ' ' + date + ',' + weekday).upper(), small_font) if daily_weathers['current_weather']: rain_img = Image.open(weather_dir + '/rain-chance.png') rtext_img = self.textImage(str(daily_weather[0]['rain_chance']) + '%', small_font) hum_img = Image.open(weather_dir + '/humidity.png') htext_img = self.textImage(str(daily_weather[0]['humidity']) + '%', small_font) wind_img = Image.open(weather_dir + '/wind.png') wtext_img = self.textImage(str(daily_weather[0]['wind_speed']) + 'm/s'.upper(), small_font) uv_img = Image.open(weather_dir + '/uv.png') utext_img = self.textImage(str(round(daily_weather[0]['uv'], 1)) , small_font) cloud_img = Image.open(weather_dir + '/clouds.png') ctext_img = self.textImage(str(daily_weather[0]['clouds']) + '%', small_font) wind_img = Image.open(weather_dir + '/wind.png') w_speed = daily_weather[0]['wind_speed'] w_unit = 'K/H' if daily_weathers['wind_speed'] == "miles/hour": w_speed = daily_weather[0]['wind_speed']/1.609 w_unit = 'M/H' wtext_img = self.textImage("{0:.0f}".format(w_speed) + w_unit, small_font) wdir_img = self.textImage(self.degreesToCompass(daily_weather[0]['wind_direction']), small_font) vis_img = Image.open(weather_dir + '/visibility.png') vtext_img = self.textImage(str(round(daily_weather[0]['visibility']/1000, 1)) + 'km'.upper(), small_font) img.paste(location_img, (0,0)) x_offset2 = location_img.size[0]+5 img.paste(weather_img, (5,9)) x_offset = 5 + weather_img.size[0] + 1 img.paste(main_img, (x_offset, 26)) img.paste(temp_img, (x_offset + main_img.size[0]//2 - temp_img.size[0]//2,9)) img.paste(deg_img, (x_offset + main_img.size[0]//2 - temp_img.size[0]//2 + temp_img.size[0], 8)) x_offset += max( main_img.size[0], temp_img.size[0] + deg_img.size[0]) img.paste(min_img, (x_offset - 0, 12)) img.paste(max_img, (x_offset - 0, 21)) x_offset += max(min_img.size[0], max_img.size[0]) + 2 img.paste(date_img, (x_offset2, 0)) x_offset2 += date_img.size[0]+5 if daily_weathers['current_weather']: img.paste(rain_img, (x_offset2,0)) x_offset2 += rain_img.size[0]+2 img.paste(rtext_img, (x_offset2,1)) x_offset2 += rtext_img.size[0]+2 img.paste(hum_img, (x_offset2, 0)) x_offset2 += hum_img.size[0]+2 img.paste(htext_img, (x_offset2, 1)) x_offset2+= htext_img.size[0]+2 img.paste(uv_img, ( x_offset2, 0)) x_offset2 += uv_img.size[0]+2 img.paste(utext_img, (x_offset2, 1)) x_offset2 += utext_img.size[0]+2 img.paste(cloud_img, (x_offset2,0)) x_offset2 += cloud_img.size[0]+2 img.paste(ctext_img, (x_offset2, 1)) x_offset2 += ctext_img.size[0]+2 img.paste(wind_img, (x_offset2,0)) x_offset2 += wind_img.size[0]+2 img.paste(wtext_img, (x_offset2, 1)) x_offset2 += wtext_img.size[0]+2 img.paste(wdir_img, (x_offset2, 1)) x_offset2+= wdir_img.size[0]+2 img.paste(vis_img, (x_offset2,-1)) x_offset2+= vis_img.size[0]+2 img.paste(vtext_img, (x_offset2, 1)) x_offset2 += vtext_img.size[0] +2 for i in range(1,len(daily_weather)): weekday = weekdays[(datetime.today().weekday() + i)%7] day_img = self.textImage( weekday.upper(), small_font) weather = daily_weather[i] main = weather['main_weather'] if main == 'Clouds': main = weather['description'] if main == 'Rain': main = weather['description'] min_temp = self.convertTemp(weather['min_temp'], daily_weathers['temp']) max_temp = self.convertTemp(weather['max_temp'], daily_weathers['temp']) weather_img = Image.open(weather_dir + '/small_icons/' + weather_ids[main] + '.png') min_img = self.textImage( "{0:.0f}".format(min_temp), small_font, r=0, g=0, b=255) max_img = self.textImage( "{0:.0f}".format(max_temp), small_font, r=255, g=0, b=0) img.paste(day_img, (x_offset +5, 9)) img.paste(weather_img, (x_offset +5, 16)) img.paste(min_img, (x_offset + 25, 10)) img.paste(max_img, (x_offset + 25, 18)) x_offset += 43 img1 = img.crop((0,0,max(x_offset, x_offset2 + 10) ,32)) imgs.append(img1) imgs.append(self.blank) # add the image text except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() return self.stitchImage(imgs) def getDailyWeatherProfessional(self): f = open('csv/daily_weather.json', 'r') all_settings = json.load(f) f.close() if all_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/forecast.png') image_list = [title_img, Image.new('RGB', (3, 16))] else: image_list = [] f = open('csv/daily_weather.json', 'r') daily_weathers = json.load(f) f.close() locations = list(daily_weathers['locations'].keys()) for i, location in enumerate(locations): try: img = Image.new('RGB', (1000, 32)) daily_weather = daily_weathers['locations'][location] small_font = ImageFont.load("./fonts/4x6.pil") font = ImageFont.load("./fonts/6x10.pil") large_font = ImageFont.load("./fonts/10x20.pil") main = daily_weather[0]['main_weather'] if main == 'Clouds': main = daily_weather[0]['description'] if main == 'Rain': main = daily_weather[0]['description'] weather_ids = {'Clear': '01', 'few clouds': '02', 'scattered clouds': '03', 'broken clouds':'04', 'overcast clouds':'04', 'Drizzle':'09', 'Rain':'10', 'Thunderstorm':'11', 'Snow':'13', 'Mist': '50', 'Smoke': '50', 'Haze': '50', 'Dust': '50', 'Fog': '50', 'Sand': '50', 'Ash': '50', 'Squall': '50', 'Tornado': '50', 'light rain': '10', 'moderate rain': '10', 'heavy intensity rain': '10', 'very heavy rain': '10', 'extreme rain': '10', 'freezing rain': '13', 'light intensity shower rain': '09', 'shower rain': '09', 'heavy intensity shower rain': '09', 'ragged shower rain': '09'} weather_dir = './logos/weather_icons' location_img = self.textImage(location.upper(), font, r = 255, g = 255, b = 0) img.paste(location_img, (5,3)) x_offset = location_img.size[0] + 8 weekdays = ['Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat', 'Sun'] months =['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec'] month = months[int(datetime.now().strftime('%m'))-1] date = str(int(datetime.now().strftime('%d'))) weekday = weekdays[datetime.today().weekday()] date_img = self.textImage((month + ' ' + date + ',' + weekday).upper(), font) img.paste(date_img, (x_offset, 3)) x_offset += date_img.size[0] + 2 weather_img = Image.open(weather_dir + '/small_icons/' + weather_ids[main] + '.png') w, h = weather_img.size #weather_img = weather_img.resize((int(w/2), int(h/2))) main = daily_weather[0]['main_weather'] main_img = self.textImage(main.upper(), font) img.paste(main_img, (x_offset, 3)) x_offset += main_img.size[0] + 2 img.paste(weather_img, (x_offset,3)) x_offset += weather_img.size[0] + 2 temp = self.convertTemp(daily_weather[0]['temp'], daily_weathers['temp']) temp_img = self.textImage(str("{0:.0f}".format(temp)), font) img.paste(temp_img, (x_offset,3)) x_offset += temp_img.size[0]-3 deg_img = self.textImage('o', small_font) img.paste(deg_img, (x_offset+1, 1)) x_offset += deg_img.size[0] -2 min_img = self.textImage( "{0:.0f}".format(self.convertTemp(daily_weather[0]['min_temp'], daily_weathers['temp'])), small_font, r=0, g=0, b=255) img.paste(min_img, (x_offset+2, 2)) max_img = self.textImage( "{0:.0f}".format(self.convertTemp(daily_weather[0]['max_temp'], daily_weathers['temp'])), small_font, r=255, g=0, b=0) img.paste(max_img, (x_offset+2, 8)) x_offset += max_img.size[0] + 15 crop_x = x_offset for i in range(1,len(daily_weather)): weekday = weekdays[(datetime.today().weekday() + i)%7] day_img = self.textImage( weekday.upper(), font) weather = daily_weather[i] main = weather['main_weather'] if main == 'Clouds': main = weather['description'] if main == 'Rain': main = weather['description'] min_img = self.textImage( "{0:.0f}".format(self.convertTemp(weather['min_temp'], daily_weathers['temp'])), small_font, r=0, g=0, b=255) max_img = self.textImage( "{0:.0f}".format(self.convertTemp(weather['max_temp'], daily_weathers['temp'])), small_font, r=255, g=0, b=0) weather_img = Image.open(weather_dir + '/small_icons/' + weather_ids[main] + '.png') img.paste(day_img, (x_offset, 3)) x_offset += (day_img.size[0]) img.paste(weather_img, (x_offset, 3)) x_offset += (weather_img.size[0]+2) img.paste(min_img, (x_offset, 2)) img.paste(max_img, (x_offset, 8)) x_offset += (max(min_img.size[0], max_img.size[0])+5) x_offset += 35 img1 = img.crop((0,0,x_offset,16)) # img1 = img.crop((0,0,max(x_offset, crop_x) ,16)) image_list.append(img1) except Exception as e: pass return self.stitchImage(image_list) def readSportsCSV(self, league): team_info = {} f = open('csv/sports/{}/team_info.csv'.format(league), 'r') CSV = csv.reader(f) next(CSV) for row in CSV: team_info[row[0]] = {} team_info[row[0]]['id'] = row[1] team_info[row[0]]['code'] = row[2] team_info[row[0]]['logo'] = row[4] team_info[row[0]]['colour'] = row[3] f.close() return team_info def displayDailyWeatherAlt(self): img0, img1 = self.getDailyWeatherImageAlt() while True: self.setImage(img0, offset_x = 0, offset_y = 0) image = img1 img_width, img_height = image.size offset_x = 64 offset_y = 0 while offset_x > 64-img_width: offset_x -= 1 self.setImage(image, offset_x = offset_x, offset_y = offset_y, min_x = 64, min_y = 9) if offset_x + img_width < self.matrix.width: # if the image is ending self.setImage(image, offset_x = offset_x + img_width, offset_y = offset_y, min_x = 64, min_y = 9) try: msg = getInput() if msg == 'K': self.resetMatrix() return True self.process_msg(msg) except KeyboardInterrupt: sys.stdout.flush() pass time.sleep(self.delay*1.1) def getUserImages(self): f = open('csv/image_settings.json', 'r') all_settings = json.load(f) f.close() imgs = [] for ind,image in enumerate(all_settings['images']): try: img = self.openImage(os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'user_uploads'), image)) img.thumbnail((99999, 32)) if img.size[0] < 128: diff = 128 - img.size[0] new_image = Image.new('RGB',(128,32)) new_image.paste(img,(64-int(img.size[0]/2),0)) img = new_image if all_settings['title'] and ind == 0: title_img = self.openImage('feature_titles/images.png') imgs.append(self.stitchImage([title_img, img])) else: imgs.append(img) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() return imgs def getUserImagesProfessional(self): f = open('csv/image_settings.json', 'r') all_settings = json.load(f) f.close() if all_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/images.png') image_list = [title_img] else: image_list = [] blank = Image.new('RGB', (0, 16)) for i,image in enumerate(all_settings['images']): if (i == len(all_settings['images'])-1): try: user_image = self.openImage(os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'user_uploads'), image)) user_image.thumbnail((99999, 16)) #user_image.convert('RGB') img = Image.new('RGB', (user_image.size[0] + 5, 32)) img.paste(user_image, (0,0)) image_list.append(img) image_list.append(blank) except Exception as e: pass else: try: user_image = self.openImage(os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'user_uploads'), image)) user_image.thumbnail((99999, 16)) #user_image.convert('RGB') img = Image.new('RGB', (user_image.size[0] + 130, 32)) img.paste(user_image, (0,0)) image_list.append(img) image_list.append(blank) except Exception as e: pass return self.stitchImage(image_list) def getUserGIFs(self): f = open('csv/GIF_settings.json', 'r') all_settings = json.load(f) f.close() GIFs = [] for ind,fle in enumerate(all_settings['images']): try: GIF = Image.open(os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'user_uploads'), fle)) frames = [] if ind == 0 and all_settings['title']: #title_img = self.openImage('feature_titles/gifs.png') for i, frame in enumerate(ImageSequence.Iterator(GIF)): frame = frame.convert('P') frame.thumbnail((128, 32),Image.NEAREST) if frame.size[0] < 128: diff = 128 - frame.size[0] new_image = Image.new('RGB',(128,32)) new_image.paste(frame,(64-int(frame.size[0]/2),0)) frame = new_image #f = self.stitchImage([title_img, frame]) frames.append(frame) else: for i, frame in enumerate(ImageSequence.Iterator(GIF)): frame = frame.convert('P') frame.thumbnail((128, 32),Image.NEAREST) if frame.size[0] < 128: diff = 128 - frame.size[0] new_image = Image.new('RGB',(128,32)) new_image.paste(frame,(64-int(frame.size[0]/2),0)) frame = new_image #frame = frame.resize((99999, 32)) #f = self.stitchImage([frame]) frames.append(frame) frames[0].save('./display_images/working_gif{}.gif'.format(str(ind)), save_all=True, append_images=frames[1:], loop=0, optimize = False) GIF = Image.open('./display_images/working_gif{}.gif'.format(str(ind))) GIFs.append(GIF) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close() #below code stitches title and GIF together # frames = [] # for i, frame in enumerate(ImageSequence.Iterator(gif)): # if all_settings['title']: # f = self.stitchImage([title_img, frame]) # else: # f = self.stitchImage([frame]) # frames.append(f) # frames[0].save('./display_images/Custom GIFs.gif', save_all=True, append_images=frames[1:], loop=0, optimize = False) return GIFs def getPlaceImage(self): f = open('csv/place_settings.json', 'r') all_settings = json.load(f) f.close() imgs = [] feature_title = False global place_featuretitle place_featuretitle = False for place in all_settings['places']: if "2017" in place: try: img = self.openImage('logos/r_place/r_place 2017.png') if all_settings['title']: feature_title = self.openImage('feature_titles/place2017.png') place_featuretitle = True except: pass elif "2022" in place: try: img = self.openImage('logos/r_place/r_place 2022.png') if all_settings['title']: feature_title = self.openImage('feature_titles/place2022.png') place_featuretitle = True except: pass elif "2023" in place: try: img = self.openImage('logos/r_place/r_place 2023.png') if all_settings['title']: feature_title = self.openImage('feature_titles/place2023.png') place_featuretitle = True except: pass try: max_x = img.width - int(all_settings['width']) max_y = img.height - 32 x = random.randint(0, max_x) y = random.randint(0, max_y) snapshot = img.crop((x, y, x + int(all_settings['width']), y + 32)) try: imgs.append(self.stitchImage([feature_title,snapshot])) except: imgs.append(snapshot) img.close() try: feature_title.close() except: pass except: pass return imgs def getPlaceImageProfessional(self): f = open('csv/place_settings.json', 'r') all_settings = json.load(f) f.close() imgs = [] feature_title = False for i,place in enumerate(all_settings['places']): if (i == len(all_settings['places'])-1): if "2017" in place: try: img = self.openImage('logos/r_place/r_place 2017.png') if all_settings['title']: feature_title = self.openImage('feature_titles/small_feature_titles/place2017.png') except: pass elif "2022" in place: try: img = self.openImage('logos/r_place/r_place 2022.png') if all_settings['title']: feature_title = self.openImage('feature_titles/small_feature_titles/place2022.png') except: pass elif "2023" in place: try: img = self.openImage('logos/r_place/r_place 2023.png') if all_settings['title']: feature_title = self.openImage('feature_titles/small_feature_titles/place2023.png') except: pass try: max_x = img.width - int(all_settings['width']) max_y = img.height - 16 x = random.randint(0, max_x) y = random.randint(0, max_y) snapshot = Image.new('RGB', (int(all_settings['width']) + 5, 32)) snapshot2 = img.crop((x, y, x + int(all_settings['width']), y + 16)) snapshot.paste(snapshot2, (0,0)) try: imgs.append(self.stitchImage([feature_title,snapshot])) except: imgs.append(snapshot) img.close() try: feature_title.close() except: pass except: pass else: if "2017" in place: try: img = self.openImage('logos/r_place/r_place 2017.png') if all_settings['title']: feature_title = self.openImage('feature_titles/small_feature_titles/place2017.png') except: pass elif "2022" in place: try: img = self.openImage('logos/r_place/r_place 2022.png') if all_settings['title']: feature_title = self.openImage('feature_titles/small_feature_titles/place2022.png') except: pass elif "2023" in place: try: img = self.openImage('logos/r_place/r_place 2023.png') if all_settings['title']: feature_title = self.openImage('feature_titles/small_feature_titles/place2023.png') except: pass try: max_x = img.width - int(all_settings['width']) max_y = img.height - 16 x = random.randint(0, max_x) y = random.randint(0, max_y) snapshot = Image.new('RGB', (int(all_settings['width']) + 130, 32)) snapshot2 = img.crop((x, y, x + int(all_settings['width']), y + 16)) snapshot.paste(snapshot2, (0,0)) try: imgs.append(self.stitchImage([feature_title,snapshot])) except: imgs.append(snapshot) img.close() try: feature_title.close() except: pass except: pass return self.stitchImage(imgs) def getMoviesImage(self): f = open('csv/movie_settings.json', 'r') all_movie_settings = json.load(f) f.close() if all_movie_settings['title']: title_img = self.openImage('feature_titles/movies.png') image_list = [title_img] else: image_list = [] font = ImageFont.load("./fonts/6x13.pil") small_font = ImageFont.load("./fonts/5x8.pil") for movie in all_movie_settings['movies']: x_offset = 0 movie_title_img = self.textImage(movie['title'] + ' (' + movie['media_type'] + ')', font, r = 255, g = 180, b = 0) lang_img = self.textImage('Lan:' + movie['language'], small_font, r = 255, g = 0, b = 100) vote_img = self.textImage(movie['votes'], small_font, r = 255, g = 255, b = 255) star_img = Image.open('logos/star.png').convert('RGB') date_img = self.textImage(movie['date'], small_font, r = 0, g = 162, b = 255) try: if movie['media_type'] == 'Movie': if movie['budget'] == '0': budget_img = self.textImage('$N/A', small_font, r = 255, g = 0, b = 0) else: budget_img = self.textImage('$' + movie['budget'], small_font, r = 255, g = 0, b = 0) except: pass try: if movie['media_type'] == 'Movie': if movie['revenue'] == '0': rev_img = self.textImage('$N/A', small_font, r = 0, g = 255, b = 0) else: rev_img = self.textImage('$' + movie['revenue'], small_font, r = 0, g = 255, b = 0) except: pass try: logo = Image.open('logos/movies/' + movie['backdrop']) logo.thumbnail((9000,32)) logo.convert('P') except: logo = self.textImage('No Logo', small_font, r=255, g=255, b=255) x_offset += logo.size[0] + 3 genre_offset = 0 for genre in movie['genre']: genre_img = self.textImage(genre + ',', small_font, r = 255, g = 255, b = 255) genre_offset += genre_img.size[0] try: if movie['media_type'] == 'Movie': img = Image.new('RGB', (max(x_offset + movie_title_img.size[0], x_offset + date_img.size[0] + 3 + star_img.size[0] + vote_img.size[0] + 3 + 5 + budget_img.size[0] + 5 + rev_img.size[0], x_offset + date_img.size[0] + 3 + genre_offset) + 15, 32)) else: img = Image.new('RGB', (max(x_offset + movie_title_img.size[0], x_offset + date_img.size[0] + 3 + star_img.size[0] + vote_img.size[0] + 3, x_offset + date_img.size[0] + 3 + genre_offset) + 15, 32)) except: img = Image.new('RGB', (max(x_offset + movie_title_img.size[0], x_offset + date_img.size[0] + 3 + star_img.size[0] + vote_img.size[0] + 3, x_offset + date_img.size[0] + 3 + genre_offset) + 15, 32)) img.paste(logo, (0, 0)) img.paste(movie_title_img, (x_offset,0)) img.paste(date_img, (x_offset, 14)) img.paste(lang_img, (x_offset, 23)) x_offset += max(date_img.size[0], lang_img.size[0]) + 3 x_offset2 = x_offset img.paste(star_img, (x_offset2 , 14)) img.paste(vote_img, (x_offset2 + star_img.size[0] + 3, 14)) try: if movie['media_type'] == 'Movie': img.paste(budget_img, (x_offset2 + star_img.size[0] + 3 + vote_img.size[0] + 5, 14)) except: pass try: if movie['media_type'] == 'Movie': img.paste(rev_img,(x_offset2 + star_img.size[0] + 3 + vote_img.size[0] + 5 + budget_img.size[0] + 5, 14)) except: pass for genre in movie['genre'][:-1]: genre_img = self.textImage(genre + ',', small_font, r = 255, g = 255, b = 255) img.paste(genre_img, (x_offset2, 23)) x_offset2 += genre_img.size[0] else: genre_img2 = self.textImage(movie['genre'][-1], small_font, r = 255, g = 255, b = 255) img.paste(genre_img2, (x_offset2, 23)) x_offset2 += genre_img2.size[0] image_list.append(img) return self.stitchImage(image_list) def getMoviesProfessional(self): f = open('csv/movie_settings.json', 'r') all_movie_settings = json.load(f) f.close() if all_movie_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/movies.png') image_list = [title_img] else: image_list = [] font = ImageFont.load("./fonts/6x10.pil") small_font = ImageFont.load("./fonts/4x6.pil") for movie in all_movie_settings['movies']: x_offset = 0 movie_title_img = self.textImage(movie['title'] + ' (' + movie['media_type'] + ')', font, r = 255, g = 180, b = 0) lang_img = self.textImage('Lan:' + movie['language'], small_font, r = 255, g = 0, b = 100) vote_img = self.textImage(movie['votes'], small_font, r = 255, g = 255, b = 255) star_img = Image.open('logos/star.png').convert('RGB') date_img = self.textImage(movie['date'], small_font, r = 0, g = 162, b = 255) try: if movie['media_type'] == 'Movie': if movie['budget'] == '0': budget_img = self.textImage('$N/A', small_font, r = 255, g = 0, b = 0) else: budget_img = self.textImage('$' + movie['budget'], small_font, r = 255, g = 0, b = 0) except: pass try: if movie['media_type'] == 'Movie': if movie['revenue'] == '0': rev_img = self.textImage('$N/A', small_font, r = 0, g = 255, b = 0) else: rev_img = self.textImage('$' + movie['revenue'], small_font, r = 0, g = 255, b = 0) except: pass try: logo = Image.open('logos/movies/' + movie['backdrop']) logo.thumbnail((1000,16)) logo.convert('P') except: logo = self.textImage('No Logo', small_font, r=255, g=255, b=255) x_offset += logo.size[0] + 3 genre_offset = 0 # img = Image.new('RGB', (200,16)) for genre in movie['genre']: genre_img = self.textImage(genre + ',', small_font, r = 255, g = 255, b = 255) genre_offset += genre_img.size[0] try: if movie['media_type'] == 'Movie': img = Image.new('RGB', (max(x_offset + movie_title_img.size[0] + 3 + star_img.size[0] + 2 + vote_img.size[0] + 10 + 3 + budget_img.size[0] + 3 + rev_img.size[0], x_offset + date_img.size[0] + 7 + lang_img.size[0] + 7 + genre_offset + 10), 16)) else: img = Image.new('RGB', (max(x_offset + movie_title_img.size[0] + 3 + star_img.size[0] + 2 + vote_img.size[0] + 10, x_offset + date_img.size[0] + 7 + lang_img.size[0] + 7 + genre_offset + 10), 16)) except: img = Image.new('RGB', (max(x_offset + movie_title_img.size[0] + 3 + star_img.size[0] + 2 + vote_img.size[0] + 10, x_offset + date_img.size[0] + 7 + lang_img.size[0] + 7 + genre_offset + 10), 16)) img.paste(logo, (0, 0)) img.paste(movie_title_img, (x_offset,0)) x_offset2 = x_offset + movie_title_img.size[0] + 3 img.paste(star_img, (x_offset2, 1)) x_offset2 += star_img.size[0] + 2 img.paste(vote_img, (x_offset2, 2)) x_offset2 += vote_img.size[0] try: if movie['media_type'] == 'Movie': img.paste(budget_img, (x_offset2 + 3, 2)) except: pass try: if movie['media_type'] == 'Movie': img.paste(rev_img,(x_offset2 + 3 + budget_img.size[0] + 3, 2)) except: pass img.paste(date_img, (x_offset, 10)) x_offset += date_img.size[0] + 7 img.paste(lang_img, (x_offset, 10)) x_offset += lang_img.size[0] + 7 for genre in movie['genre'][:-1]: genre_img = self.textImage(genre + ',', small_font, r = 255, g = 255, b = 255) img.paste(genre_img, (x_offset, 10)) x_offset += genre_img.size[0] else: genre_img2 = self.textImage(movie['genre'][-1], small_font, r = 255, g = 255, b = 255) img.paste(genre_img2, (x_offset, 10)) x_offset += genre_img2.size[0] image_list.append(img) return self.stitchImage(image_list) def getIpoImage(self): f = open('csv/ipo_settings.json', 'r') ipo_settings = json.load(f) f.close() if ipo_settings['title']: title_img = self.openImage('feature_titles/ipo.png') image_list = [title_img] else: image_list = [] font = ImageFont.load("./fonts/7x14B.pil") font2 = ImageFont.load("./fonts/6x13.pil") small_font = ImageFont.load("./fonts/6x10.pil") if ipo_settings['symbols'][0] != 'No Data': try: for ipo in ipo_settings['symbols']: x_offset = 10 x_offset2 = 10 name_img = self.textImage(ipo['name'].upper(), font, r = 255, g = 255, b = 255) try: if ipo['symbol'] == "": symbol_img = self.textImage('($N/A)', font2, r = 255, g = 255, b = 255) else: symbol_img = self.textImage('($'+ ipo['symbol'] + ')', font2, r = 255, g = 255, b = 255) except: symbol_img = self.textImage('($N/A)', font2, r = 255, g = 255, b = 255) date_img = self.textImage(ipo['date'], font2, r = 255, g = 255, b = 0) status_1 = self.textImage('Status:', small_font, r=255, g=255, b=255) if ipo['status'] == 'expected': status_img = self.textImage(ipo['status'].capitalize(), small_font, r = 255, g = 255, b = 0) # diff color elif ipo['status'] == 'priced': status_img = self.textImage(ipo['status'].capitalize(), small_font, r = 0, g = 255, b = 0) # diff color elif ipo['status'] == 'withdrawn': status_img = self.textImage(ipo['status'].capitalize(), small_font, r = 255, g = 0, b = 0) # diff color elif ipo['status'] == 'filed': status_img = self.textImage(ipo['status'].capitalize(), small_font, r = 54, g = 69, b = 79) # diff color shares_1 = self.textImage('Shares:', small_font, r = 255, g = 255, b = 255) try: shares_img = self.textImage(ipo['shares'], small_font, r = 38, g = 59, b = 232) except: shares_img = self.textImage('N/A', small_font, r = 38, g = 59, b = 232) price_1 = self.textImage('Price:', small_font, r = 255, g = 255, b = 255) try: price_img = self.textImage(ipo['price'], small_font, r = 0, g = 255, b = 0) except: price_img = self.textImage('N/A', small_font, r = 0, g = 255, b = 0) sharesvalue_1 = self.textImage('Value:', small_font, r=255, g=255, b=255) try: sharesvalue_img = self.textImage(ipo['sharesvalue'], small_font, r = 213, g = 117, b = 0) except: sharesvalue_img = self.textImage('N/A', small_font, r = 213, g = 117, b = 0) img = Image.new('RGB', (max(x_offset + name_img.size[0] + 2 + symbol_img.size[0] + 8 + date_img.size[0], x_offset2 + status_1.size[0] + status_img.size[0] + 8 + price_1.size[0] + price_img.size[0] + 8 + shares_1.size[0] + shares_img.size[0] +8 + sharesvalue_1.size[0] + sharesvalue_img.size[0])+30,32)) img.paste(status_1,(x_offset2, 19)) x_offset2 += status_1.size[0] img.paste(status_img, (x_offset2, 19)) x_offset2 += status_img.size[0] + 8 img.paste(price_1, (x_offset2, 19)) x_offset2 += price_1.size[0] img.paste(price_img, (x_offset2, 19)) x_offset2 += price_img.size[0] + 8 img.paste(shares_1, (x_offset2, 19)) x_offset2 += shares_1.size[0] img.paste(shares_img, (x_offset2, 19)) x_offset2 += shares_img.size[0] + 8 img.paste(sharesvalue_1, (x_offset2, 19)) x_offset2 += sharesvalue_1.size[0] img.paste(sharesvalue_img, (x_offset2, 19)) img.paste(name_img, (x_offset,0)) x_offset += name_img.size[0] + 2 img.paste(symbol_img, (x_offset, 0)) x_offset += symbol_img.size[0] + 8 img.paste(date_img, (x_offset, 0)) line_image = Image.new("RGB", (name_img.size[0] + 2 + symbol_img.size[0] + 8 + date_img.size[0], 1)) line_image1 = ImageDraw.Draw(line_image) line_image1.line((0,0,name_img.size[0] + 2 + symbol_img.size[0] + 8 + date_img.size[0],0), fill="blue", width = 0) img.paste(line_image, (10, max(name_img.size[1],symbol_img.size[1])-1)) image_list.append(img) except: time.sleep(0.1) no_ipo = self.textImage('No Upcoming IPOs for the next 3 weeks.', font, r = 255, g = 255, b = 255) img = Image.new('RGB', (no_ipo.size[0] + 15, 32)) img.paste(no_ipo, (10, 10)) image_list.append(img) elif ipo_settings['symbols'][0] == 'No Data': time.sleep(0.1) no_ipo = self.textImage('No Upcoming IPOs for the next 3 weeks.', font, r = 255, g = 255, b = 255) img = Image.new('RGB', (no_ipo.size[0] + 15, 32)) img.paste(no_ipo, (10, 10)) image_list.append(img) return self.stitchImage(image_list) def getIpoProfessional(self): f = open('csv/ipo_settings.json', 'r') ipo_settings = json.load(f) f.close() if ipo_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/ipo.png') image_list = [title_img] else: image_list = [] font = ImageFont.load("./fonts/5x8.pil") small_font = ImageFont.load("./fonts/4x6.pil") if ipo_settings['symbols'][0] != 'No Data': try: for ipo in ipo_settings['symbols']: x_offset = 10 x_offset2 = 10 name_img = self.textImage(ipo['name'].upper(), font, r = 255, g = 255, b = 255) try: if ipo['symbol'] == "": symbol_img = self.textImage('($N/A)', font, r = 255, g = 255, b = 255) else: symbol_img = self.textImage('($'+ ipo['symbol'] + ')', font, r = 255, g = 255, b = 255) except: symbol_img = self.textImage('($N/A)', font, r = 255, g = 255, b = 255) date_img = self.textImage(ipo['date'], font, r = 255, g = 255, b = 0) status_1 = self.textImage('Status:', small_font, r=255, g=255, b=255) if ipo['status'] == 'expected': status_img = self.textImage(ipo['status'].capitalize(), small_font, r = 255, g = 255, b = 0) # diff color elif ipo['status'] == 'priced': status_img = self.textImage(ipo['status'].capitalize(), small_font, r = 0, g = 255, b = 0) # diff color elif ipo['status'] == 'withdrawn': status_img = self.textImage(ipo['status'].capitalize(), small_font, r = 255, g = 0, b = 0) # diff color elif ipo['status'] == 'filed': status_img = self.textImage(ipo['status'].capitalize(), small_font, r = 54, g = 69, b = 79) # diff color shares_1 = self.textImage('Shares:', small_font, r = 255, g = 255, b = 255) try: shares_img = self.textImage(ipo['shares'], small_font, r = 38, g = 59, b = 232) except: shares_img = self.textImage('N/A', small_font, r = 38, g = 59, b = 232) price_1 = self.textImage('Price:', small_font, r = 255, g = 255, b = 255) try: price_img = self.textImage(ipo['price'], small_font, r = 0, g = 255, b = 0) except: price_img = self.textImage('N/A', small_font, r = 0, g = 255, b = 0) sharesvalue_1 = self.textImage('Value:', small_font, r=255, g=255, b=255) try: sharesvalue_img = self.textImage(ipo['sharesvalue'], small_font, r = 213, g = 117, b = 0) except: sharesvalue_img = self.textImage('N/A', small_font, r = 213, g = 117, b = 0) img = Image.new('RGB', (max(x_offset + name_img.size[0] + 2 + symbol_img.size[0] + 5 + date_img.size[0], x_offset2 + status_1.size[0] + status_img.size[0] + 8 + price_1.size[0] + price_img.size[0] + 8 + shares_1.size[0] + shares_img.size[0] +8 + sharesvalue_1.size[0] + sharesvalue_img.size[0])+30,16)) img.paste(status_1,(x_offset2, 10)) x_offset2 += status_1.size[0] img.paste(status_img, (x_offset2, 10)) x_offset2 += status_img.size[0] + 8 img.paste(price_1, (x_offset2, 10)) x_offset2 += price_1.size[0] img.paste(price_img, (x_offset2, 10)) x_offset2 += price_img.size[0] + 8 img.paste(shares_1, (x_offset2, 10)) x_offset2 += shares_1.size[0] img.paste(shares_img, (x_offset2, 10)) x_offset2 += shares_img.size[0] + 8 img.paste(sharesvalue_1, (x_offset2, 10)) x_offset2 += sharesvalue_1.size[0] img.paste(sharesvalue_img, (x_offset2, 10)) img.paste(name_img, (x_offset,0)) x_offset += name_img.size[0] + 2 img.paste(symbol_img, (x_offset, 0)) x_offset += symbol_img.size[0] + 5 img.paste(date_img, (x_offset, 0)) line_image = Image.new("RGB", (name_img.size[0] + 2 + symbol_img.size[0] + 5 + date_img.size[0], 1)) line_image1 = ImageDraw.Draw(line_image) line_image1.line((0,0,name_img.size[0] + 2 + symbol_img.size[0] + 5 + date_img.size[0],0), fill="blue", width = 0) img.paste(line_image, (10, max(name_img.size[1],symbol_img.size[1])-2)) image_list.append(img) except: time.sleep(0.1) font = ImageFont.load("./fonts/6x13.pil") no_ipo = self.textImage('No Upcoming IPOs for the next 3 weeks.', font, r = 255, g = 255, b = 255) img = Image.new('RGB', (no_ipo.size[0] + 15, 16)) img.paste(no_ipo, (10, 1)) image_list.append(img) elif ipo_settings['symbols'][0] == 'No Data': time.sleep(0.1) font = ImageFont.load("./fonts/6x13.pil") no_ipo = self.textImage('No Upcoming IPOs for the next 3 weeks.', font, r = 255, g = 255, b = 255) img = Image.new('RGB', (no_ipo.size[0] + 15, 16)) img.paste(no_ipo, (10, 1)) image_list.append(img) return self.stitchImage(image_list) def getEconomicImage(self): f = open('csv/economic_settings.json', 'r') econ_settings = json.load(f) f.close() if econ_settings['title']: title_img = self.openImage('feature_titles/economy.png') image_list = [title_img] else: image_list = [] font = ImageFont.load("./fonts/7x14B.pil") font2 = ImageFont.load("./fonts/6x12.pil") small_font = ImageFont.load("./fonts/6x10.pil") if len(econ_settings['events']) != 0: try: for event in econ_settings['events']: if event['importance'] == -1: imp_img = Image.open('logos/low_imp.png') elif event['importance'] == 0: imp_img = Image.open('logos/med_imp.png') elif event['importance'] == 1: imp_img = Image.open('logos/high_imp.png') x_offset = 15 if event['period'] != "": clock_img = Image.open('logos/period.png') period_img = self.textImage(event['period'].upper(), small_font, r=255, g= 255, b =255) else: clock_img = None period_img = None flag_img = Image.open('logos/economic_logos/' + event['country'] + '.png') circle_img = Image.open('logos/indicator.png') title_img = self.textImage((event['title'].upper()).replace("(", '').replace(")", '').replace("/", " "), font, r = 255, g = 255, b = 255) country_img = self.textImage(event['country'].upper(), font2, r= 255, g = 255, b = 0) date_img = self.textImage(event['time'], small_font, r=0, g=150, b=255) indicator_img = self.textImage(event['indicator'], font2, r=255, g=255, b=255) after_offset = 0 if event['forecast'] != None or event['previous'] != None or event['actual'] != None: tiny_font = ImageFont.load("./fonts/5x7.pil") try: if event['forecast'] != None: fore_img = self.textImage('Forecast', tiny_font, r=255,g=255,b=255) fore2_img = self.textImage(str(event['forecast']), tiny_font, r=0, g=255, b=0) after_offset += max(fore_img.size[0], fore2_img.size[0]) + 3 if event['previous'] != None: prev_img = self.textImage('Prior', tiny_font, r=255,g=255,b=255) prev2_img = self.textImage(str(event['previous']), tiny_font, r=0, g=255, b=0) after_offset += max(prev_img.size[0], prev2_img.size[0]) + 3 actual_img = self.textImage('Actual', tiny_font, r=255,g=255,b=255) if event['actual'] == None: actual2_img = self.textImage('Soon', tiny_font, r=255, g=40, b=40) else: actual2_img = self.textImage(str(event['actual']), tiny_font, r=0, g=255, b=0) after_offset += max(actual_img.size[0], actual2_img.size[0]) + 3 except: pass try: img = Image.new('RGB', ( max(flag_img.size[0] + x_offset + 5 + 3 + title_img.size[0] + country_img.size[0], max(flag_img.size[0] + x_offset + 5 + 1 + circle_img.size[0] + 2 + indicator_img.size[0] + 2 + imp_img.size[0], flag_img.size[0] + x_offset + 5 + 1 + date_img.size[0] + 3 + 2 + clock_img.size[0] + period_img.size[0]) + 10 + after_offset ) ,32)) except: img = Image.new('RGB', ( max(flag_img.size[0] + x_offset + 5 + 3 + title_img.size[0] + country_img.size[0], max(flag_img.size[0] + x_offset + 5 + 1 + circle_img.size[0] + 2 + indicator_img.size[0] + 2 + imp_img.size[0], flag_img.size[0] + x_offset + 5 + 1 + date_img.size[0]) + 10 + after_offset ) ,32)) img.paste(flag_img,(x_offset, 0)) x_offset += flag_img.size[0] + 5 x_offset2 = x_offset + 1 img.paste(circle_img, (x_offset2, 15)) img.paste(indicator_img, (x_offset2 + circle_img.size[0] + 2, 11)) img.paste(imp_img, (x_offset2 + circle_img.size[0] + 2 + indicator_img.size[0] + 2, 15)) img.paste(title_img, (x_offset , 0)) x_offset += title_img.size[0] + 3 img.paste(country_img, (x_offset, 2)) x_offset += country_img.size[0] img.paste(date_img, (x_offset2, 23)) try: img.paste(clock_img, (x_offset2 + 3 + date_img.size[0], 24)) img.paste(period_img, (x_offset2 + 3 + date_img.size[0] + 2 + clock_img.size[0], 23)) x_offset2 += max(circle_img.size[0] + 2 + indicator_img.size[0] + 2 + imp_img.size[0], date_img.size[0] + clock_img.size[0] + 3 + 2 + period_img.size[0]) + 10 except: x_offset2 += max(circle_img.size[0] + 2 + indicator_img.size[0] + 2 + imp_img.size[0], date_img.size[0]) + 10 try: if event['forecast'] != None: img.paste(fore_img, (x_offset2, 14)) img.paste(fore2_img, (x_offset2, 22)) x_offset2 += max(fore_img.size[0], fore2_img.size[0]) + 3 except: pass try: if event['previous'] != None: img.paste(prev_img, (x_offset2, 14)) img.paste(prev2_img, (x_offset2, 22)) x_offset2 += max(prev_img.size[0], prev2_img.size[0]) + 3 img.paste(actual_img, (x_offset2, 14)) img.paste(actual2_img, (x_offset2, 22)) x_offset2 += max(actual_img.size[0], actual2_img.size[0]) + 3 except: pass image_list.append(img) except: pass elif len(econ_settings['events']) == 0: time.sleep(0.1) no_econ = self.textImage('No upcoming economic events today.', font, r = 255, g = 255, b = 255) img = Image.new('RGB', (no_econ.size[0] + 15, 32)) img.paste(no_econ, (10, 10)) image_list.append(img) return self.stitchImage(image_list) def getEconomicProfessional(self): f = open('csv/economic_settings.json', 'r') econ_settings = json.load(f) f.close() if econ_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/economy.png') image_list = [title_img] else: image_list = [] font = ImageFont.load("./fonts/5x8.pil") small_font = ImageFont.load("./fonts/4x6.pil") if len(econ_settings['events']) != 0: try: for event in econ_settings['events']: x_offset = 5 if event['importance'] == -1: imp_img = Image.open('logos/low_imp.png') elif event['importance'] == 0: imp_img = Image.open('logos/med_imp.png') elif event['importance'] == 1: imp_img = Image.open('logos/high_imp.png') if event['period'] != "": clock_img = Image.open('logos/period.png') period_img = self.textImage(event['period'].upper(), small_font, r=255, g= 85, b =0) else: clock_img = None period_img = None flag_img = Image.open('logos/economic_logos/' + event['country'] + '.png') width, height = flag_img.size flag_img = flag_img.resize((int(width/2), int(height/2))) circle_img = Image.open('logos/indicator.png') title_img = self.textImage((event['title'].upper()).replace("(", '').replace(")", '').replace("/", " "), font, r = 255, g = 255, b = 255) country_img = self.textImage(event['country'].upper(), small_font, r= 255, g = 255, b = 0) date_img = self.textImage(event['time'].split(' ')[2], small_font, r=0, g=150, b=255) indicator_img = self.textImage(event['indicator'], small_font, r=255, g=255, b=255) if event['forecast'] != None or event['previous'] != None or event['actual'] != None: try: if event['forecast'] != None: fore_img = self.textImage('Forecast', small_font, r=255,g=255,b=255) fore2_img = self.textImage(str(event['forecast']), small_font, r=0, g=255, b=0) if event['previous'] != None: prev_img = self.textImage('Prior', small_font, r=255,g=255,b=255) prev2_img = self.textImage(str(event['previous']), small_font, r=0, g=255, b=0) actual_img = self.textImage('Actual', small_font, r=255,g=255,b=255) if event['actual'] == None: actual2_img = self.textImage('Soon', small_font, r=255, g=40, b=40) else: actual2_img = self.textImage(str(event['actual']), small_font, r=0, g=255, b=0) except: pass x_off1 = x_offset + flag_img.size[0] + 2 + title_img.size[0] + 2 + country_img.size[0] + imp_img.size[0] + 2 x_off2 = x_offset + flag_img.size[0] + 2 + circle_img.size[0] + 2 + indicator_img.size[0] + 2 + date_img.size[0] + 2 try: x_off2 += clock_img.size[0] + 2 + period_img.size[0] + 2 except: pass x_off3 = max(x_off1, x_off2) try: if event['forecast'] != None: x_off3 += max(fore_img.size[0], fore2_img.size[0]) + 2 except: pass try: if event['previous'] != None: x_off3 += max(prev_img.size[0], prev2_img.size[0]) + 2 x_off3 += max(actual_img.size[0], actual2_img.size[0]) + 2 except: pass img = Image.new('RGB', (x_off3 + 5,16)) img.paste(flag_img, (x_offset, 0)) x_offset += flag_img.size[0] + 2 x_offset2 = x_offset img.paste(title_img, (x_offset, 0)) x_offset += title_img.size[0] +2 img.paste(country_img, (x_offset, 2)) x_offset += country_img.size[0] img.paste(imp_img, (x_offset, 1)) x_offset += imp_img.size[0] + 2 img.paste(circle_img, (x_offset2, 9)) x_offset2 += circle_img.size[0] + 2 img.paste(indicator_img, (x_offset2, 9)) x_offset2 += indicator_img.size[0] + 2 img.paste(date_img, (x_offset2, 9)) x_offset2 += date_img.size[0] + 2 try: img.paste(clock_img, (x_offset2, 8)) x_offset2 += clock_img.size[0] + 2 img.paste(period_img, (x_offset2, 9)) x_offset2 += period_img.size[0] + 2 except: pass x_offset3 = max(x_offset, x_offset2) try: if event['forecast'] != None: img.paste(fore_img, (x_offset3, 3)) img.paste(fore2_img, (x_offset3, 9)) x_offset3 += max(fore_img.size[0], fore2_img.size[0]) + 2 except: pass try: if event['previous'] != None: img.paste(prev_img, (x_offset3, 3)) img.paste(prev2_img, (x_offset3, 9)) x_offset3 += max(prev_img.size[0], prev2_img.size[0]) + 2 img.paste(actual_img, (x_offset3, 3)) img.paste(actual2_img, (x_offset3, 9)) x_offset3 += max(actual_img.size[0], actual2_img.size[0]) + 2 except: pass image_list.append(img) except: time.sleep(0.1) no_econ = self.textImage('No upcoming economic events today.', font, r = 255, g = 255, b = 255) img = Image.new('RGB', (no_econ.size[0] + 15, 16)) img.paste(no_econ, (10, 1)) image_list.append(img) elif len(econ_settings['events']) == 0: time.sleep(0.1) no_econ = self.textImage('No upcoming economic events today.', font, r = 255, g = 255, b = 255) img = Image.new('RGB', (no_econ.size[0] + 15, 16)) img.paste(no_econ, (10, 1)) image_list.append(img) return self.stitchImage(image_list) def getJokesImage(self): f = open('csv/jokes_settings.json', 'r') jokes_settings = json.load(f) f.close() if jokes_settings['title']: title_img = self.openImage('feature_titles/jokes.png') image_list = [title_img] else: image_list = [] font = ImageFont.load("./fonts/BonusCoffee-16.pil") small_font = ImageFont.load("./fonts/5x8.pil") colours = { 'White':(255,255,255), 'Red':(255,0,0), 'Green':(0,255,0), 'Dark Green':(0,100,0), 'Blue':(0,0,255), 'Purple':(145,0,255), 'Pink':(255,0,255), 'Yellow':(255,255,0), 'Orange':(255,130,0), 'Gold':(255,190,0), 'Cyan':(0,255,255)} if len(jokes_settings['jokes']) > 0: try: for joke in jokes_settings['jokes']: random_color = random.choice(list(colours.keys())) r,g,b = colours[random_color] random_number = str(random.randint(1, 8)) + '.png' emoji = self.openImage('logos/emojis/emoji' + random_number) category_icon = self.openImage('logos/emojis/category.png') category = self.textImage(joke['category'], small_font, r=255, g=255,b=255) if joke['safe']: safe = self.textImage('Safe', small_font, r=255, g=255, b=0) else: safe = self.textImage('Unsafe', small_font, r=255, g=0, b=0) if joke['type'] == 'twopart': decoded = joke['setup'].encode("ascii","ignore") joke['setup'] = decoded.decode() joke1 = self.textImage(joke['setup'].replace('\n', ' '), font, int(r),int(g),int(b)) random_color = random.choice(list(colours.keys())) r,g,b = colours[random_color] decoded = joke['delivery'].encode("ascii","ignore") joke['delivery'] = decoded.decode() joke2 = self.textImage(joke['delivery'].replace('\n', ' '), font, int(r), int(g), int(b)) else: decoded = joke['joke'].encode("ascii","ignore") joke['joke'] = decoded.decode() joke1 = self.textImage(joke['joke'].replace('\n', ' '), font, int(r), int(g), int(b)) joke2 = None try: true_flags = [key for key, value in joke['flags'].items() if value] flags = ", ".join(true_flags) flags_final = self.textImage(flags, small_font, r=255, g=145, b=0) except: flags_final = None pass if flags_final != None: flags_icon = self.openImage('logos/emojis/flags.png') else: flags_icon = None x_offset = 10 if joke2 != None: try: img = Image.new('RGB', (20 + emoji.size[0] + 5 + max(joke1.size[0], category_icon.size[0] + 2 + category.size[0] + 5 + safe.size[0] + 5 + flags_icon.size[0] + 2 + flags_final.size[0] + 5) + joke2.size[0], 32)) except: img = Image.new('RGB', (20 + emoji.size[0] + 5 + max(joke1.size[0], category_icon.size[0] + 2 + category.size[0] + 5 + safe.size[0] + 5) + joke2.size[0], 32)) else: try: img = Image.new('RGB', (20 + emoji.size[0] + 5 + max(joke1.size[0], category_icon.size[0] + 2 + category.size[0] + 5 + safe.size[0] + 5 + flags_icon.size[0] + 2 + flags_final.size[0] + 5), 32)) except: img = Image.new('RGB', (20 + emoji.size[0] + 5 + max(joke1.size[0], category_icon.size[0] + 2 + category.size[0] + 5 + safe.size[0] + 5), 32)) img.paste(emoji, (x_offset, 3)) x_offset += emoji.size[0] + 5 x_offset2 = x_offset img.paste(joke1, (x_offset, 1)) x_offset += joke1.size[0] img.paste(category_icon, (x_offset2, 20)) x_offset2 += category_icon.size[0] + 2 img.paste(category, (x_offset2, 20)) x_offset2 += category.size[0] + 5 img.paste(safe, (x_offset2, 20)) x_offset2 += safe.size[0] + 5 try: img.paste(flags_icon, (x_offset2, 20)) x_offset2 += flags_icon.size[0] + 2 img.paste(flags_final, (x_offset2, 20)) x_offset2 += flags_final.size[0] + 5 except: pass try: img.paste(joke2, (max(x_offset, x_offset2), 16)) except: pass image_list.append(img) except: pass return self.stitchImage(image_list) def getJokesProfessional(self): f = open('csv/jokes_settings.json', 'r') jokes_settings = json.load(f) f.close() if jokes_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/jokes.png') image_list = [title_img] else: image_list = [] font = ImageFont.load("./fonts/6x10.pil") small_font = ImageFont.load("./fonts/4x6.pil") colours = { 'White':(255,255,255), 'Red':(255,0,0), 'Green':(0,255,0), 'Dark Green':(0,100,0), 'Blue':(0,0,255), 'Purple':(145,0,255), 'Pink':(255,0,255), 'Yellow':(255,255,0), 'Orange':(255,130,0), 'Gold':(255,190,0), 'Cyan':(0,255,255)} if len(jokes_settings['jokes']) > 0: try: for joke in jokes_settings['jokes']: random_color = random.choice(list(colours.keys())) r,g,b = colours[random_color] random_number = str(random.randint(1, 8)) + '.png' emoji = self.openImage('logos/emojis/small_emojis/emoji' + random_number) category_icon = self.openImage('logos/emojis/small_emojis/category.png') category = self.textImage(joke['category'], small_font, r=255, g=255,b=255) if joke['safe']: safe = self.textImage('Safe', small_font, r=255, g=255, b=0) else: safe = self.textImage('Unsafe', small_font, r=255, g=0, b=0) if joke['type'] == 'twopart': joke1 = self.textImage(joke['setup'].replace('\n', ' '), font, int(r),int(g),int(b)) random_color = random.choice(list(colours.keys())) r,g,b = colours[random_color] joke2 = self.textImage(joke['delivery'].replace('\n', ' '), font, int(r), int(g), int(b)) else: joke1 = self.textImage(joke['joke'].replace('\n', ' '), font, int(r), int(g), int(b)) joke2 = None try: true_flags = [key for key, value in joke['flags'].items() if value] flags = ", ".join(true_flags) flags_final = self.textImage(flags, small_font, r=255, g=145, b=0) except: flags_final = None pass if flags_final != None: flags_icon = self.openImage('logos/emojis/small_emojis/flags.png') else: flags_icon = None x_offset = 10 if joke2 != None: try: img = Image.new('RGB', (20 + emoji.size[0] + 5 + max(joke1.size[0], category_icon.size[0] + 2 + category.size[0] + 5 + safe.size[0] + 5 + flags_icon.size[0] + 2 + flags_final.size[0] + 5) + joke2.size[0], 16)) except: img = Image.new('RGB', (20 + emoji.size[0] + 5 + max(joke1.size[0], category_icon.size[0] + 2 + category.size[0] + 5 + safe.size[0] + 5) + joke2.size[0], 16)) else: try: img = Image.new('RGB', (20 + emoji.size[0] + 5 + max(joke1.size[0], category_icon.size[0] + 2 + category.size[0] + 5 + safe.size[0] + 5 + flags_icon.size[0] + 2 + flags_final.size[0] + 5), 16)) except: img = Image.new('RGB', (20 + emoji.size[0] + 5 + max(joke1.size[0], category_icon.size[0] + 2 + category.size[0] + 5 + safe.size[0] + 5), 16)) img.paste(emoji, (x_offset, 0)) x_offset += emoji.size[0] + 5 x_offset2 = x_offset img.paste(joke1, (x_offset, 0)) x_offset += joke1.size[0] img.paste(category_icon, (x_offset2, 10)) x_offset2 += category_icon.size[0] + 2 img.paste(category, (x_offset2, 10)) x_offset2 += category.size[0] + 5 img.paste(safe, (x_offset2, 10)) x_offset2 += safe.size[0] + 5 try: img.paste(flags_icon, (x_offset2, 10)) x_offset2 += flags_icon.size[0] + 2 img.paste(flags_final, (x_offset2, 10)) x_offset2 += flags_final.size[0] + 5 except: pass try: img.paste(joke2, (max(x_offset, x_offset2), 6)) except: pass image_list.append(img) except: pass return self.stitchImage(image_list) def getQuotesImage(self): f = open('csv/quotes_settings.json', 'r') quotes_settings = json.load(f) f.close() if quotes_settings['title']: title_img = self.openImage('feature_titles/quotes.png') image_list = [title_img] else: image_list = [] font = ImageFont.load("./fonts/8x13B.pil") font2 = ImageFont.load("./fonts/6x10.pil") sun_img = self.openImage('logos/sun_quote.png') try: for index, each in enumerate(quotes_settings['quotes']): if index == 0: quote_img = self.textImage(each['quote'], font, 248, 152, 128) author_img = self.textImage(each['author'], font2, 64, 181, 173) img = Image.new('RGB', (max(quote_img.size[0], author_img.size[0]) + 20,32)) img.paste(quote_img, (0,7)) img.paste(author_img, ((quote_img.size[0] - author_img.size[0] - 5), 21)) image_list.append(img) else: quote_img = self.textImage(each['quote'], font, 248, 152, 128) author_img = self.textImage(each['author'], font2, 64, 181, 173) img = Image.new('RGB', (sun_img.size[0] + 5+ max(quote_img.size[0], author_img.size[0]) + 20,32)) img.paste(sun_img, (0, 0)) img.paste(quote_img, (sun_img.size[0] + 5,7)) img.paste(author_img, (sun_img.size[0] + 5+(quote_img.size[0] - author_img.size[0] - 5), 21)) image_list.append(img) except: img = Image.new('RGB',(180,32)) no_quotes = self.textImage('No quotes available.', font, 255, 255, 255) img.paste(no_quotes,(0,7)) image_list.append(img) pass return self.stitchImage(image_list) def getQuotesProfessional(self): f = open('csv/quotes_settings.json', 'r') quotes_settings = json.load(f) f.close() if quotes_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/quotes.png') image_list = [title_img] else: image_list = [] font = ImageFont.load("./fonts/5x8.pil") font2 = ImageFont.load("./fonts/4x6.pil") sun_img = self.openImage('logos/sun_quote_small.png') try: for index, each in enumerate(quotes_settings['quotes']): if index == 0: quote_img = self.textImage(each['quote'], font, 248, 152, 128) author_img = self.textImage(each['author'], font2, 64, 181, 173) img = Image.new('RGB', (max(quote_img.size[0], author_img.size[0]) + 15,16)) img.paste(quote_img, (0,0)) img.paste(author_img, ((quote_img.size[0] - author_img.size[0] - 5), 10)) image_list.append(img) else: quote_img = self.textImage(each['quote'], font, 248, 152, 128) author_img = self.textImage(each['author'], font2, 64, 181, 173) img = Image.new('RGB', (sun_img.size[0] + 5+ max(quote_img.size[0], author_img.size[0]) + 15,16)) img.paste(sun_img, (0, 0)) img.paste(quote_img, (sun_img.size[0] + 5,0)) img.paste(author_img, (sun_img.size[0] + 5+(quote_img.size[0] - author_img.size[0] - 5), 10)) image_list.append(img) except: img = Image.new('RGB',(180,16)) no_quotes = self.textImage('No quotes available.', font, 255, 255, 255) img.paste(no_quotes,(0,0)) image_list.append(img) pass return self.stitchImage(image_list) def getMarketImage(self): f = open('csv/market_settings.json', 'r') market_settings = json.load(f) f.close() if market_settings['title']: title_img = self.openImage('feature_titles/market.png') image_list = [title_img] image_list.append(self.blank) else: image_list = [] try: if market_settings['display_name']: names = True else: names = False except: names = False pass active_info = market_settings['mostactive'] active_symbols = list(active_info.keys()) gainers_info = market_settings['gainers'] gainers_symbols = list(gainers_info.keys()) losers_info = market_settings['losers'] losers_symbols = list(losers_info.keys()) for category in market_settings['categories']: if category == 'Most Active': most_active = self.openImage('logos/active.png') image_list.append(most_active) for i, symbol in enumerate(active_symbols): try: info = active_info[symbol] change = float(info['change']) #TEXT if names: try: ticker = info['name'].upper() #TEXT except: ticker = symbol else: ticker = symbol arrow, change = self.getArrow(change) percent_change = '%.2f' % abs(float(info['percent_change'])) + '%' point_change = '%.2f' % abs(change) current = '%.2f' % float(info['current']) #TEXT if not market_settings['percent']: percent_change = False if not market_settings['point']: point_change = False midFrame = self.textToImage(ticker, current, arrow, percent_change, point_change) #IMAGE THE TEXT if market_settings['logos']: try: ticker = symbol logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'stocks') logo = self.openImage(os.path.join(logos_path, ticker + '.png')) stitchedStock = self.stitchImage([logo,midFrame]) except Exception as e: stitchedStock = midFrame else: stitchedStock = midFrame try: if market_settings['lohivol']: font = ImageFont.load("./fonts/5x8.pil") try: day_low = '%.2f' % float(info['day_low']) day_high = '%.2f' % float(info['day_high']) volume = info['volume'] daylow_img = self.textImage(day_low, font, r=0, g=255, b=0) daylow_t_img = self.textImage('Lo', font, r=255, g=255, b=255) dayhi_img = self.textImage(day_high, font, r=0,g=255,b=0) dayhi_t_img = self.textImage('Hi', font, r=255,g=255,b=255) vol_img = self.textImage(volume, font, r=0,g=255,b=0) vol_t_img = self.textImage('Vol', font, r=255,g=255,b=255) lohivol_img = Image.new('RGB', (max(daylow_img.size[0] + daylow_t_img.size[0], dayhi_img.size[0] + dayhi_t_img.size[0], vol_img.size[0] + vol_t_img.size[0]) + 5, 32)) lohivol_img.paste(daylow_t_img, (0, 3)) lohivol_img.paste(daylow_img, (daylow_t_img.size[0],3)) lohivol_img.paste(dayhi_t_img, (0, 12)) lohivol_img.paste(dayhi_img, (dayhi_t_img.size[0], 12)) lohivol_img.paste(vol_t_img, (0, 21)) lohivol_img.paste(vol_img, (vol_t_img.size[0], 21)) except: pass except: pass image_list.append(stitchedStock) try: if market_settings['lohivol']: try: image_list.append(lohivol_img) except: pass except: pass image_list.append(self.blank) except: pass elif category == 'Top Gainers': top_gainers = self.openImage('logos/gainers.png') image_list.append(top_gainers) for i, symbol in enumerate(gainers_symbols): try: info = gainers_info[symbol] change = float(info['change']) #TEXT if names: try: ticker = info['name'].upper() #TEXT except: ticker = symbol else: ticker = symbol arrow, change = self.getArrow(change) percent_change = '%.2f' % abs(float(info['percent_change'])) + '%' point_change = '%.2f' % abs(change) current = '%.2f' % float(info['current']) #TEXT if not market_settings['percent']: percent_change = False if not market_settings['point']: point_change = False midFrame = self.textToImage(ticker, current, arrow, percent_change, point_change) #IMAGE THE TEXT if market_settings['logos']: try: ticker = symbol logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'stocks') logo = self.openImage(os.path.join(logos_path, ticker + '.png')) stitchedStock = self.stitchImage([logo,midFrame]) except Exception as e: stitchedStock = midFrame else: stitchedStock = midFrame try: if market_settings['lohivol']: font = ImageFont.load("./fonts/5x8.pil") try: day_low = '%.2f' % float(info['day_low']) day_high = '%.2f' % float(info['day_high']) volume = info['volume'] daylow_img = self.textImage(day_low, font, r=0, g=255, b=0) daylow_t_img = self.textImage('Lo', font, r=255, g=255, b=255) dayhi_img = self.textImage(day_high, font, r=0,g=255,b=0) dayhi_t_img = self.textImage('Hi', font, r=255,g=255,b=255) vol_img = self.textImage(volume, font, r=0,g=255,b=0) vol_t_img = self.textImage('Vol', font, r=255,g=255,b=255) lohivol_img = Image.new('RGB', (max(daylow_img.size[0] + daylow_t_img.size[0], dayhi_img.size[0] + dayhi_t_img.size[0], vol_img.size[0] + vol_t_img.size[0]) + 5, 32)) lohivol_img.paste(daylow_t_img, (0, 3)) lohivol_img.paste(daylow_img, (daylow_t_img.size[0],3)) lohivol_img.paste(dayhi_t_img, (0, 12)) lohivol_img.paste(dayhi_img, (dayhi_t_img.size[0], 12)) lohivol_img.paste(vol_t_img, (0, 21)) lohivol_img.paste(vol_img, (vol_t_img.size[0], 21)) except: pass except: pass image_list.append(stitchedStock) try: if market_settings['lohivol']: try: image_list.append(lohivol_img) except: pass except: pass image_list.append(self.blank) except: pass elif category == 'Top Losers': top_losers = self.openImage('logos/losers.png') image_list.append(top_losers) for i, symbol in enumerate(losers_symbols): try: info = losers_info[symbol] change = float(info['change']) #TEXT if names: try: ticker = info['name'].upper() except: ticker = symbol else: ticker = symbol #TEXT arrow, change = self.getArrow(change) percent_change = '%.2f' % abs(float(info['percent_change'])) + '%' point_change = '%.2f' % abs(change) current = '%.2f' % float(info['current']) #TEXT if not market_settings['percent']: percent_change = False if not market_settings['point']: point_change = False midFrame = self.textToImage(ticker, current, arrow, percent_change, point_change) #IMAGE THE TEXT if market_settings['logos']: try: ticker = symbol logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'stocks') logo = self.openImage(os.path.join(logos_path, ticker + '.png')) stitchedStock = self.stitchImage([logo,midFrame]) except Exception as e: stitchedStock = midFrame else: stitchedStock = midFrame try: if market_settings['lohivol']: font = ImageFont.load("./fonts/5x8.pil") try: day_low = '%.2f' % float(info['day_low']) day_high = '%.2f' % float(info['day_high']) volume = info['volume'] daylow_img = self.textImage(day_low, font, r=0, g=255, b=0) daylow_t_img = self.textImage('Lo', font, r=255, g=255, b=255) dayhi_img = self.textImage(day_high, font, r=0,g=255,b=0) dayhi_t_img = self.textImage('Hi', font, r=255,g=255,b=255) vol_img = self.textImage(volume, font, r=0,g=255,b=0) vol_t_img = self.textImage('Vol', font, r=255,g=255,b=255) lohivol_img = Image.new('RGB', (max(daylow_img.size[0] + daylow_t_img.size[0], dayhi_img.size[0] + dayhi_t_img.size[0], vol_img.size[0] + vol_t_img.size[0]) + 5, 32)) lohivol_img.paste(daylow_t_img, (0, 3)) lohivol_img.paste(daylow_img, (daylow_t_img.size[0],3)) lohivol_img.paste(dayhi_t_img, (0, 12)) lohivol_img.paste(dayhi_img, (dayhi_t_img.size[0], 12)) lohivol_img.paste(vol_t_img, (0, 21)) lohivol_img.paste(vol_img, (vol_t_img.size[0], 21)) except: pass except: pass image_list.append(stitchedStock) try: if market_settings['lohivol']: try: image_list.append(lohivol_img) except: pass except: pass image_list.append(self.blank) except: pass finalDisplayImage = self.stitchImage(image_list) return finalDisplayImage def getMarketProfessional(self): self.blank = Image.new('RGB', (0, 16)) f = open('csv/market_settings.json', 'r') market_settings = json.load(f) f.close() if market_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/market.png') image_list = [title_img, Image.new('RGB', (5, 16))] image_list.append(self.blank) else: image_list = [] try: if market_settings['display_name']: names = True else: names = False except: names = False pass active_info = market_settings['mostactive'] active_symbols = list(active_info.keys()) gainers_info = market_settings['gainers'] gainers_symbols = list(gainers_info.keys()) losers_info = market_settings['losers'] losers_symbols = list(losers_info.keys()) for category in market_settings['categories']: if category == 'Most Active': most_active = self.openImage('logos/active_prof.png') image_list.append(most_active) for i, symbol in enumerate(active_symbols): try: info = active_info[symbol] change = float(info['change'])#TEXT if names: try: ticker = info['name'].upper() + 'display_name' #TEXT except: ticker = symbol else: ticker = symbol arrow, change = self.getArrow(change, professional=True) if market_settings["percent"]: change = '%.2f' % abs(float(info['percent_change'])) + '%' else: change = '%.2f' % abs(change) current = '%.2f' % float(info['current']) #TEXT midFrame = self.textToImageProf(ticker, current, change, arrow, font=ImageFont.load("./fonts/6x10.pil")) #IMAGE THE TEXT if market_settings['logos']: ticker = symbol try: try: #load the tiny logo logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'tiny_stocks') logo = Image.open(os.path.join(logos_path, ticker + '.png')) except: # load the big logo and scale it logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'stocks') logo = Image.open(os.path.join(logos_path, ticker + '.png')) # half the size of the logo width, height = logo.size logo = logo.resize((int(width/2), int(height/2))) stitchedStock = self.stitchImage([logo,midFrame]) except Exception as e: stitchedStock = midFrame else: stitchedStock = midFrame try: if market_settings['lohivol']: font = ImageFont.load("./fonts/4x6.pil") try: day_low = '%.2f' % float(info['day_low']) day_high = '%.2f' % float(info['day_high']) volume = info['volume'] daylow_img = self.textImage(day_low, font, r=0, g=255, b=0) daylow_t_img = self.textImage('Lo', font, r=255, g=255, b=255) dayhi_img = self.textImage(day_high, font, r=0,g=255,b=0) dayhi_t_img = self.textImage('Hi', font, r=255,g=255,b=255) vol_img = self.textImage(volume, font, r=0,g=255,b=0) vol_t_img = self.textImage('Vol', font, r=255,g=255,b=255) lohivol_img = Image.new('RGB', (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0]) + 2+vol_t_img.size[0] + vol_img.size[0] + 8, 16)) lohivol_img.paste(daylow_t_img, (0, 3)) lohivol_img.paste(daylow_img, (daylow_t_img.size[0],3)) lohivol_img.paste(dayhi_t_img, (0, 9)) lohivol_img.paste(dayhi_img, (dayhi_t_img.size[0], 9)) lohivol_img.paste(vol_t_img, (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0])+2, 3)) lohivol_img.paste(vol_img, (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0]) + 2+vol_t_img.size[0], 3)) except: pass except: pass image_list.append(stitchedStock) try: if market_settings['lohivol']: try: image_list.append(lohivol_img) except: pass except: pass image_list.append(self.blank) except Exception as e: pass elif category == 'Top Losers': top_losers = self.openImage('logos/losers_prof.png') image_list.append(top_losers) for i, symbol in enumerate(losers_symbols): try: info = losers_info[symbol] change = float(info['change'])#TEXT if names: try: ticker = info['name'].upper() + 'display_name' #TEXT except: ticker = symbol else: ticker = symbol arrow, change = self.getArrow(change, professional=True) if market_settings["percent"]: change = '%.2f' % abs(float(info['percent_change'])) + '%' else: change = '%.2f' % abs(change) current = '%.2f' % float(info['current']) #TEXT midFrame = self.textToImageProf(ticker, current, change, arrow, font=ImageFont.load("./fonts/6x10.pil")) #IMAGE THE TEXT if market_settings['logos']: ticker = symbol try: try: #load the tiny logo logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'tiny_stocks') logo = Image.open(os.path.join(logos_path, ticker + '.png')) except: # load the big logo and scale it logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'stocks') logo = Image.open(os.path.join(logos_path, ticker + '.png')) # half the size of the logo width, height = logo.size logo = logo.resize((int(width/2), int(height/2))) stitchedStock = self.stitchImage([logo,midFrame]) except Exception as e: stitchedStock = midFrame else: stitchedStock = midFrame try: if market_settings['lohivol']: font = ImageFont.load("./fonts/4x6.pil") try: day_low = '%.2f' % float(info['day_low']) day_high = '%.2f' % float(info['day_high']) volume = info['volume'] daylow_img = self.textImage(day_low, font, r=0, g=255, b=0) daylow_t_img = self.textImage('Lo', font, r=255, g=255, b=255) dayhi_img = self.textImage(day_high, font, r=0,g=255,b=0) dayhi_t_img = self.textImage('Hi', font, r=255,g=255,b=255) vol_img = self.textImage(volume, font, r=0,g=255,b=0) vol_t_img = self.textImage('Vol', font, r=255,g=255,b=255) lohivol_img = Image.new('RGB', (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0]) + 2+vol_t_img.size[0] + vol_img.size[0] + 8, 16)) lohivol_img.paste(daylow_t_img, (0, 3)) lohivol_img.paste(daylow_img, (daylow_t_img.size[0],3)) lohivol_img.paste(dayhi_t_img, (0, 9)) lohivol_img.paste(dayhi_img, (dayhi_t_img.size[0], 9)) lohivol_img.paste(vol_t_img, (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0])+2, 3)) lohivol_img.paste(vol_img, (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0]) + 2+vol_t_img.size[0], 3)) except: pass except: pass image_list.append(stitchedStock) try: if market_settings['lohivol']: try: image_list.append(lohivol_img) except: pass except: pass image_list.append(self.blank) except Exception as e: pass elif category == 'Top Gainers': top_gainers = self.openImage('logos/gainers_prof.png') image_list.append(top_gainers) for i, symbol in enumerate(gainers_symbols): try: info = gainers_info[symbol] change = float(info['change'])#TEXT if names: try: ticker = info['name'].upper() + 'display_name' #TEXT except: ticker = symbol else: ticker = symbol arrow, change = self.getArrow(change, professional=True) if market_settings["percent"]: change = '%.2f' % abs(float(info['percent_change'])) + '%' else: change = '%.2f' % abs(change) current = '%.2f' % float(info['current']) #TEXT midFrame = self.textToImageProf(ticker, current, change, arrow, font=ImageFont.load("./fonts/6x10.pil")) #IMAGE THE TEXT if market_settings['logos']: ticker = symbol try: try: #load the tiny logo logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'tiny_stocks') logo = Image.open(os.path.join(logos_path, ticker + '.png')) except: # load the big logo and scale it logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'stocks') logo = Image.open(os.path.join(logos_path, ticker + '.png')) # half the size of the logo width, height = logo.size logo = logo.resize((int(width/2), int(height/2))) stitchedStock = self.stitchImage([logo,midFrame]) except Exception as e: stitchedStock = midFrame else: stitchedStock = midFrame try: if market_settings['lohivol']: font = ImageFont.load("./fonts/4x6.pil") try: day_low = '%.2f' % float(info['day_low']) day_high = '%.2f' % float(info['day_high']) volume = info['volume'] daylow_img = self.textImage(day_low, font, r=0, g=255, b=0) daylow_t_img = self.textImage('Lo', font, r=255, g=255, b=255) dayhi_img = self.textImage(day_high, font, r=0,g=255,b=0) dayhi_t_img = self.textImage('Hi', font, r=255,g=255,b=255) vol_img = self.textImage(volume, font, r=0,g=255,b=0) vol_t_img = self.textImage('Vol', font, r=255,g=255,b=255) lohivol_img = Image.new('RGB', (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0]) + 2+vol_t_img.size[0] + vol_img.size[0] + 8, 16)) lohivol_img.paste(daylow_t_img, (0, 3)) lohivol_img.paste(daylow_img, (daylow_t_img.size[0],3)) lohivol_img.paste(dayhi_t_img, (0, 9)) lohivol_img.paste(dayhi_img, (dayhi_t_img.size[0], 9)) lohivol_img.paste(vol_t_img, (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0])+2, 3)) lohivol_img.paste(vol_img, (max(daylow_t_img.size[0] + daylow_img.size[0], dayhi_t_img.size[0] + dayhi_img.size[0]) + 2+vol_t_img.size[0], 3)) except: pass except: pass image_list.append(stitchedStock) try: if market_settings['lohivol']: try: image_list.append(lohivol_img) except: pass except: pass image_list.append(self.blank) except Exception as e: pass finalDisplayImage = self.stitchImage(image_list) self.blank = Image.new('RGB', (10, 32)) return finalDisplayImage def getSectorImage(self): f = open('csv/sector_settings.json', 'r') sector_settings = json.load(f) f.close() if sector_settings['title']: title_img = self.openImage('feature_titles/sector.png') image_list = [title_img] image_list.append(self.blank) else: image_list = [] data_info = sector_settings['data'] data_symbols = list(data_info.keys()) for category in sector_settings['sectors']: try: info = data_info[category] change = float(info['current']) #TEXT ticker = category.upper() #TEXT arrow, change = self.getArrow(change) current = '%.2f' % abs(float(info['current'])) + '%' #TEXT percent_change = False point_change = False midFrame = self.textToImage(ticker, current, arrow, percent_change, point_change) #IMAGE THE TEXT if sector_settings['logos']: try: logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'sector') logo = self.openImage(os.path.join(logos_path, category + '.png')) stitchedStock = self.stitchImage([logo,midFrame]) except Exception as e: stitchedStock = midFrame else: stitchedStock = midFrame image_list.append(stitchedStock) image_list.append(self.blank) except: pass finalDisplayImage = self.stitchImage(image_list) return finalDisplayImage def getSectorProfessional(self): self.blank = Image.new('RGB', (0, 16)) f = open('csv/sector_settings.json', 'r') sector_settings = json.load(f) f.close() if sector_settings['title']: title_img = self.openImage('feature_titles/small_feature_titles/sector.png') image_list = [title_img, Image.new('RGB', (5, 16))] image_list.append(self.blank) else: image_list = [] data_info = sector_settings['data'] data_symbols = list(data_info.keys()) for category in sector_settings['sectors']: try: info = data_info[category] change = float(info['current'])#TEXT ticker = category.upper() #TEXT arrow, change = self.getArrow(change, professional=True) change = 'Sector' current = '%.2f' % abs(float(info['current'])) + '%' #TEXT midFrame = self.textToImageProf(ticker, current, change, arrow, font=ImageFont.load("./fonts/6x10.pil")) #IMAGE THE TEXT if sector_settings['logos']: try: try: #load the tiny logo logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'tiny_sectors') logo = Image.open(os.path.join(logos_path, category + '.png')) except: # load the big logo and scale it logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'sector') logo = Image.open(os.path.join(logos_path, category + '.png')) # half the size of the logo width, height = logo.size logo = logo.resize((int(width/2), int(height/2))) stitchedStock = self.stitchImage([logo,midFrame]) except Exception as e: stitchedStock = midFrame else: stitchedStock = midFrame image_list.append(stitchedStock) image_list.append(self.blank) except Exception as e: pass finalDisplayImage = self.stitchImage(image_list) self.blank = Image.new('RGB', (10, 32)) return finalDisplayImage def showClock1(self): kill=False canvas = self.double_buffer try: with open('csv/clock1_settings.json', 'r') as f: clock1_set = json.load(f) except: clock1_set1 = {"speed": "fast", "transition": "up", "pause": "20", "speed2": "fast"} with open('csv/clock1_settings.json', 'w') as f: json.dump(clock1_set1, f) clock1_set = clock1_set1 try: with open('clock_screensaver.json', 'r') as f: settings = json.load(f)['clock1'] except: settings1 = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(settings1, f) settings = settings1['clock1'] gmt1 = settings['timezone'] if '+' in gmt1: gmt = gmt1.replace('+', '-') elif '-' in gmt1: gmt = gmt1.replace('-', '+') else: gmt = gmt1 #TIMEZONE NOT WORKING?!?!?!!?!?!?!?!?!?? timezone = pytz.timezone(gmt) font = graphics.Font() font.LoadFont("fonts/6x12.bdf") # Change this to the path of your desired font file font2 = graphics.Font() font2.LoadFont("fonts/8x13B.bdf") color = graphics.Color(255, 255, 255) # White color time_colors = { "White": graphics.Color(255,255,255), "Red": graphics.Color(255, 0,0), "Green": graphics.Color(0,255,0), "Dark Green": graphics.Color(0, 100,0), "Blue": graphics.Color(0,0,255), "Purple": graphics.Color(145,0,255), "Pink": graphics.Color(255,0,255), "Yellow": graphics.Color(255,255,0), "Orange": graphics.Color(255,130,0), "Gold": graphics.Color(255,190,0), "Gray": graphics.Color(100,100,100), "Cyan": graphics.Color(0,255,255) } colon_visible = False colon_counter = 0 counter = 0 counter2 = 0 pause = int(clock1_set['pause']) transition = clock1_set['transition'].lower() if clock1_set['speed'].lower() == 'slow': speed = 0.05 elif clock1_set['speed'].lower() == 'medium': speed = 0.02 else: speed = 0.01 #DOWN y_coord_down = -32 y_time_down = 44 y_date_down = 63 y_weekday_down = 54 #UP y_coord_up = 32 y_time_up = -20 y_date_up = -1 y_weekday_up = -10 #CONT x_coordinate_weekday = 0 x_coordinate_date = 0 x_coordinate_time = 0 x_coordinate_weekday2 = 128 x_coordinate_time2 = 128 x_coordinate_date2 = 128 x_coord_cont = 0 #SCROLL OUT x_coord = 0 x_date = 0 x_time = 0 x_weekday = 0 if settings['12hour']: if settings['display_pm'] and settings['display_seconds']: the_time = "%I:%M:%S %p" elif settings['display_pm'] and not settings['display_seconds']: the_time = "%I:%M %p" elif not settings['display_pm'] and settings['display_seconds']: the_time = "%I:%M:%S" else: the_time = "%I:%M" else: if settings['display_pm'] and settings['display_seconds']: the_time = "%H:%M:%S %p" elif settings['display_pm'] and not settings['display_seconds']: the_time = "%H:%M %p" elif not settings['display_pm'] and settings['display_seconds']: the_time = "%H:%M:%S" else: the_time = "%H:%M" while counter2 <= 130: while counter <= (pause*2): canvas.Clear() current_time = datetime.now(timezone).strftime(the_time) if colon_visible: current_time = current_time.replace(":", " ") colon_visible = False else: colon_visible = True current_weekday = datetime.now(timezone).strftime("%A") current_date = datetime.now(timezone).strftime("%d %b %Y") weekday_width = graphics.DrawText(canvas, font, 0, 0, color, current_weekday.upper()) time_width = graphics.DrawText(canvas, font2, 0, 0, time_colors[settings['time_color']], current_time) date_width = graphics.DrawText(canvas, font, 0, 0, time_colors[settings['date_color']], current_date.upper()) canvas.Clear() x_coordinate_weekday = int((128 - weekday_width) / 2) x_coordinate_time = int((128 - time_width) / 2) x_coordinate_date = int((128 - date_width) /2) x_coordinate_weekday2 += x_coordinate_weekday x_coordinate_time2 += x_coordinate_time x_coordinate_date2 += x_coordinate_date if transition == 'up': while y_coord_down < 0: y_coord_down += 1 y_time_down -= 1 y_date_down -= 1 y_weekday_down -= 1 if colon_counter % (0.5/speed) == 0: current_time = datetime.now(timezone).strftime(the_time) if colon_visible: current_time = current_time.replace(":", " ") colon_visible = False else: colon_visible = True current_weekday = datetime.now(timezone).strftime("%A") current_date = datetime.now(timezone).strftime("%d %b %Y") weekday_width = graphics.DrawText(canvas, font, 0, 0, color, current_weekday.upper()) time_width = graphics.DrawText(canvas, font2, 0, 0, time_colors[settings['time_color']], current_time) date_width = graphics.DrawText(canvas, font, 0, 0, time_colors[settings['date_color']], current_date.upper()) canvas.Clear() x_coordinate_weekday = int((128 - weekday_width) / 2) x_coordinate_time = int((128 - time_width) / 2) x_coordinate_date = int((128 - date_width) /2) graphics.DrawText(canvas, font2, x_coordinate_time, y_time_down, time_colors[settings['time_color']], current_time) graphics.DrawText(canvas, font, x_coordinate_weekday, y_weekday_down, time_colors[settings['weekday_color']], current_weekday.upper()) graphics.DrawText(canvas, font, x_coordinate_date, y_date_down, time_colors[settings['date_color']], current_date.upper()) canvas = self.matrix.SwapOnVSync(canvas) canvas.Clear() colon_counter += 1 time.sleep(speed) if y_coord_down == 0: break if transition == 'down': while y_coord_up > 0: y_coord_up -= 1 y_time_up += 1 y_date_up += 1 y_weekday_up += 1 if colon_counter % (0.5/speed) == 0: current_time = datetime.now(timezone).strftime(the_time) if colon_visible: current_time = current_time.replace(":", " ") colon_visible = False else: colon_visible = True current_weekday = datetime.now(timezone).strftime("%A") current_date = datetime.now(timezone).strftime("%d %b %Y") weekday_width = graphics.DrawText(canvas, font, 0, 0, color, current_weekday.upper()) time_width = graphics.DrawText(canvas, font2, 0, 0, time_colors[settings['time_color']], current_time) date_width = graphics.DrawText(canvas, font, 0, 0, time_colors[settings['date_color']], current_date.upper()) canvas.Clear() x_coordinate_weekday = int((128 - weekday_width) / 2) x_coordinate_time = int((128 - time_width) / 2) x_coordinate_date = int((128 - date_width) /2) graphics.DrawText(canvas, font2, x_coordinate_time, y_time_up, time_colors[settings['time_color']], current_time) graphics.DrawText(canvas, font, x_coordinate_weekday, y_weekday_up, time_colors[settings['weekday_color']], current_weekday.upper()) graphics.DrawText(canvas, font, x_coordinate_date, y_date_up, time_colors[settings['date_color']], current_date.upper()) canvas = self.matrix.SwapOnVSync(canvas) canvas.Clear() colon_counter += 1 time.sleep(speed) if y_coord_up == 0: break if transition == 'continuous': while x_coord_cont < 128: x_coord_cont += 1 x_coordinate_date2 -= 1 x_coordinate_time2 -= 1 x_coordinate_weekday2 -= 1 if colon_counter % (0.5/speed) == 0: current_time = datetime.now(timezone).strftime(the_time) if colon_visible: current_time = current_time.replace(":", " ") colon_visible = False else: colon_visible = True current_weekday = datetime.now(timezone).strftime("%A") current_date = datetime.now(timezone).strftime("%d %b %Y") graphics.DrawText(canvas, font2, x_coordinate_time2, 12, time_colors[settings['time_color']], current_time) graphics.DrawText(canvas, font, x_coordinate_weekday2, 22, time_colors[settings['weekday_color']], current_weekday.upper()) graphics.DrawText(canvas, font, x_coordinate_date2, 31, time_colors[settings['date_color']], current_date.upper()) canvas = self.matrix.SwapOnVSync(canvas) canvas.Clear() colon_counter += 1 time.sleep(speed) if x_coord_cont == 0: break # Draw the time, weekday, and date on the canvas graphics.DrawText(canvas, font2, x_coordinate_time, 12, time_colors[settings['time_color']], current_time) graphics.DrawText(canvas, font, x_coordinate_weekday, 22, time_colors[settings['weekday_color']], current_weekday.upper()) graphics.DrawText(canvas, font, x_coordinate_date, 31, time_colors[settings['date_color']], current_date.upper()) # Swap the canvas onto the matrix canvas = self.matrix.SwapOnVSync(canvas) counter += 1 # Wait for 1 second before updating the clock time.sleep(0.5) # if counter == (pause*2): # break kill=self.checkKilled() if kill:break canvas.Clear() if colon_counter % (0.5/speed) == 0: current_time = datetime.now(timezone).strftime(the_time) if colon_visible: current_time = current_time.replace(":", " ") colon_visible = False else: colon_visible = True current_weekday = datetime.now(timezone).strftime("%A") current_date = datetime.now(timezone).strftime("%d %b %Y") weekday_width = graphics.DrawText(canvas, font, 0, 0, color, current_weekday.upper()) time_width = graphics.DrawText(canvas, font2, 0, 0, time_colors[settings['time_color']], current_time) date_width = graphics.DrawText(canvas, font, 0, 0, time_colors[settings['date_color']], current_date.upper()) canvas.Clear() x_coordinate_weekday = int((128 - weekday_width) / 2) x_coordinate_time = int((128 - time_width) / 2) x_coordinate_date = int((128 - date_width) /2) graphics.DrawText(canvas, font2, x_coordinate_time+x_time, 12, time_colors[settings['time_color']], current_time) graphics.DrawText(canvas, font, x_coordinate_weekday+x_weekday, 22, time_colors[settings['weekday_color']], current_weekday.upper()) graphics.DrawText(canvas, font, x_coordinate_date+x_date, 31, time_colors[settings['date_color']], current_date.upper()) x_date -= 1 x_time -= 1 x_weekday -= 1 counter2 += 1 colon_counter += 1 canvas = self.matrix.SwapOnVSync(canvas) time.sleep(speed) #if counter2 == 130: # break kill=self.checkKilled() if kill:break return kill def showClock2(self): kill = False try: with open('csv/clock2_settings.json', 'r') as f: clock2_set = json.load(f) except: clock2_set = {"speed": "fast", "transition": "up", "pause": "20", "speed2": "fast"} with open('csv/clock2_settings.json', 'w') as f: json.dump(clock2_set, f) try: with open('clock_screensaver.json', 'r') as f: settings = json.load(f)['clock2'] except: settings1 = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(settings1, f) settings = settings1['clock2'] # Create a canvas to draw on canvas = self.double_buffer gmt1 = settings['timezone'] if '+' in gmt1: gmt = gmt1.replace('+', '-') elif '-' in gmt1: gmt = gmt1.replace('-', '+') else: gmt = gmt1 #TIMEZONE NOT WORKING?!?!?!!?!?!?!?!?!?? timezone = pytz.timezone(gmt) # Set the font and text color font = graphics.Font() font.LoadFont("fonts/clR6x12.bdf") #font.LoadFont("fonts/6x12.bdf") # Change this to the path of your desired font file font2 = graphics.Font() font2.LoadFont("fonts/texgyre-27.bdf") time_colors = { "White": graphics.Color(255,255,255), "Red": graphics.Color(255, 0,0), "Green": graphics.Color(0,255,0), "Dark Green": graphics.Color(0, 100,0), "Blue": graphics.Color(0,0,255), "Purple": graphics.Color(145,0,255), "Pink": graphics.Color(255,0,255), "Yellow": graphics.Color(255,255,0), "Orange": graphics.Color(255,130,0), "Gold": graphics.Color(255,190,0), "Gray": graphics.Color(100,100,100), "Cyan": graphics.Color(0,255,255) } colon_visible = False colon_counter = 0 counter = 0 counter2 = 0 pause = int(clock2_set['pause']) transition = clock2_set['transition'].lower() if clock2_set['speed'].lower() == 'slow': speed = 0.05 elif clock2_set['speed'].lower() == 'medium': speed = 0.02 else: speed = 0.01 #DOWN y_coord_down = -32 y_time_down = 53 y_date_down = 63 #UP y_coord_up = 32 y_time_up = -11 y_date_up = -1 #CONT x_coordinate_time = 0 x_coordinate_date = 0 x_coordinate_time2 = 128 x_coordinate_date2 = 128 x_coord_cont = 0 #SCROLL OUT x_coord = 0 x_date = 0 x_time = 0 if settings['12hour']: if settings['display_pm']: the_time = "%I:%M %p" else: the_time = "%I:%M" else: if settings['display_pm']: the_time = "%H:%M %p" else: the_time = "%H:%M" while counter2 <= 130: while counter <= (pause*2): canvas.Clear() current_time = datetime.now(timezone).strftime(the_time) if colon_visible: current_time = current_time.replace(":", " ") colon_visible = False else: colon_visible = True current_date = datetime.now(timezone).strftime("%a %d %b %Y") date_width = graphics.DrawText(canvas, font, 0, 0, time_colors[settings['date_color']], current_date.upper()) time_width = graphics.DrawText(canvas, font2, 0, 0, time_colors[settings['time_color']], current_time) canvas.Clear() x_coordinate_time = int((128 - time_width) / 2) x_coordinate_date = int((128 - date_width) /2) x_coordinate_date2 += x_coordinate_date x_coordinate_time2 += x_coordinate_time if transition == 'up': while y_coord_down < 0: y_coord_down += 1 y_time_down -= 1 y_date_down -= 1 #current_time = datetime.now(timezone).strftime(the_time) if colon_counter % (0.5/speed) == 0: current_time = datetime.now(timezone).strftime(the_time) if colon_visible: current_time = current_time.replace(":", " ") colon_visible = False else: colon_visible = True current_date = datetime.now(timezone).strftime("%a %d %b %Y") date_width = graphics.DrawText(canvas, font, 0, 0, time_colors[settings['date_color']], current_date.upper()) time_width = graphics.DrawText(canvas, font2, 0, 0, time_colors[settings['time_color']], current_time) canvas.Clear() x_coordinate_time = int((128 - time_width) / 2) x_coordinate_date = int((128 - date_width) /2) graphics.DrawText(canvas, font2, x_coordinate_time, y_time_down, time_colors[settings['time_color']], current_time) graphics.DrawText(canvas, font, x_coordinate_date, y_date_down, time_colors[settings['date_color']], current_date.upper()) canvas = self.matrix.SwapOnVSync(canvas) canvas.Clear() colon_counter += 1 time.sleep(speed) if y_coord_down == 0: break if transition == 'down': while y_coord_up > 0: y_coord_up -= 1 y_time_up += 1 y_date_up += 1 # current_time = datetime.now(timezone).strftime(the_time) if colon_counter % (0.5/speed) == 0: current_time = datetime.now(timezone).strftime(the_time) if colon_visible: current_time = current_time.replace(":", " ") colon_visible = False else: colon_visible = True current_date = datetime.now(timezone).strftime("%a %d %b %Y") date_width = graphics.DrawText(canvas, font, 0, 0, time_colors[settings['date_color']], current_date.upper()) time_width = graphics.DrawText(canvas, font2, 0, 0, time_colors[settings['time_color']], current_time) canvas.Clear() x_coordinate_time = int((128- time_width) / 2) x_coordinate_date = int((128 - date_width) /2) graphics.DrawText(canvas, font2, x_coordinate_time, y_time_up, time_colors[settings['time_color']], current_time) graphics.DrawText(canvas, font, x_coordinate_date, y_date_up, time_colors[settings['date_color']], current_date.upper()) canvas = self.matrix.SwapOnVSync(canvas) canvas.Clear() colon_counter += 1 time.sleep(speed) if y_coord_up == 0: break if transition == 'continuous': while x_coord_cont < 128: x_coord_cont+= 1 x_coordinate_date2 -= 1 x_coordinate_time2 -= 1 # current_time = datetime.now(timezone).strftime(the_time) if colon_counter % (0.5/speed) == 0: current_time = datetime.now(timezone).strftime(the_time) if colon_visible: current_time = current_time.replace(":", " ") colon_visible = False else: colon_visible = True current_date = datetime.now(timezone).strftime("%a %d %b %Y") # date_width = graphics.DrawText(canvas, font, 0, 0, time_colors[settings['date_color']], current_date.upper()) # time_width = graphics.DrawText(canvas, font2, 0, 0, time_colors[settings['time_color']], current_time) # canvas.Clear() # x_coordinate_time = int((options.cols - time_width) / 2) # x_coordinate_date = int((options.cols - date_width) /2) graphics.DrawText(canvas, font2, x_coordinate_time2, 21, time_colors[settings['time_color']], current_time) graphics.DrawText(canvas, font, x_coordinate_date2, 31, time_colors[settings['date_color']], current_date.upper()) canvas = self.matrix.SwapOnVSync(canvas) canvas.Clear() colon_counter += 1 time.sleep(speed) if x_coord_cont == 0: break graphics.DrawText(canvas, font2, x_coordinate_time, 21, time_colors[settings['time_color']], current_time) graphics.DrawText(canvas, font, x_coordinate_date, 31, time_colors[settings['date_color']], current_date.upper()) canvas = self.matrix.SwapOnVSync(canvas) counter += 1 time.sleep(0.5) kill = self.checkKilled() if kill: break # if counter == (pause*2): # break canvas.Clear() if colon_counter % (0.5/speed) == 0: current_time = datetime.now(timezone).strftime(the_time) if colon_visible: current_time = current_time.replace(":", " ") colon_visible = False else: colon_visible = True current_date = datetime.now(timezone).strftime("%a %d %b %Y") date_width = graphics.DrawText(canvas, font, 0, 0, time_colors[settings['date_color']], current_date.upper()) time_width = graphics.DrawText(canvas, font2, 0, 0, time_colors[settings['time_color']], current_time) canvas.Clear() x_coordinate_time = int((128 - time_width) / 2) x_coordinate_date = int((128 - date_width) /2) graphics.DrawText(canvas, font2, x_coordinate_time+x_time, 21, time_colors[settings['time_color']], current_time) graphics.DrawText(canvas, font, x_coordinate_date+x_date, 31, time_colors[settings['date_color']], current_date.upper()) x_date -= 1 x_time -= 1 counter2 += 1 colon_counter += 1 canvas = self.matrix.SwapOnVSync(canvas) time.sleep(speed) kill = self.checkKilled() if kill: break #if counter2 == 130: # break return kill def showWorldclock(self): kill=False canvas = self.double_buffer try: with open('csv/worldclock_settings.json', 'r') as f: worldclock_set = json.load(f) except: worldclock_set1 = {"speed": "fast", "transition": "up", "pause": "20", "speed2": "fast"} with open('csv/worldclock_settings.json', 'w') as f: json.dump(worldclock_set1, f) worldclock_set = worldclock_set1 try: with open('clock_screensaver.json', 'r') as f: settings = json.load(f)['world_clock'] except: settings1 = {"clock1": {"time_color": "White", "weekday_color": "Cyan", "date_color": "Blue", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "clock2": {"time_color": "Orange", "date_color": "White", "timezone": "Etc/GMT+4", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}, "world_clock": {"city_color": "White", "display_seconds": True, "display_pm": True, "12hour": True, "brightness": "10"}} with open('clock_screensaver.json', 'w') as f: json.dump(settings1, f) settings = settings1['world_clock'] font = graphics.Font() city_colors = { "White": graphics.Color(255,255,255), "Red": graphics.Color(255, 0,0), "Green": graphics.Color(0,255,0), "Dark Green": graphics.Color(0, 100,0), "Blue": graphics.Color(0,0,255), "Purple": graphics.Color(145,0,255), "Pink": graphics.Color(255,0,255), "Yellow": graphics.Color(255,255,0), "Orange": graphics.Color(255,130,0), "Gold": graphics.Color(255,190,0), "Gray": graphics.Color(100,100,100), "Cyan": graphics.Color(0,255,255) } color = city_colors[settings['city_color']] line_c = graphics.Color(50,50,50) font.LoadFont("fonts/5x7.bdf") time_colors = { "day": graphics.Color(255, 191, 0), # Orange color "night": graphics.Color(0, 71,171), # Dark blue / purple color } def getTimes(timezone): if settings['12hour']: if settings['display_pm'] and settings['display_seconds']: time = datetime.now(timezone).strftime("%I:%M:%S %p") elif settings['display_pm'] and not settings['display_seconds']: time = datetime.now(timezone).strftime("%I:%M %p") elif not settings['display_pm'] and settings['display_seconds']: time = datetime.now(timezone).strftime("%I:%M:%S %p") else: time = datetime.now(timezone).strftime("%I:%M %p") else: if settings['display_pm'] and settings['display_seconds']: time = datetime.now(timezone).strftime("%H:%M:%S %p") elif settings['display_pm'] and not settings['display_seconds']: time = datetime.now(timezone).strftime("%H:%M %p") elif not settings['display_pm'] and settings['display_seconds']: time = datetime.now(timezone).strftime("%H:%M:%S %p") else: time = datetime.now(timezone).strftime("%H:%M %p") return time def isDaytime(time): if settings['12hour']: hour = int(time.split(':')[0]) daytime_start_hour = 6 daytime_end_hour = 6 am_pm = time[-2:] if (6 <= hour <= 11 and am_pm == 'AM') or (1 <= hour <= 6 and am_pm == 'PM') or (hour == 12 and am_pm == 'PM'): return True else: return False else: hour = time.split(':')[0] daytime_start_hour = 6 daytime_end_hour = 18 if daytime_start_hour <= int(hour) <= daytime_end_hour: return True else: return False ny_timezone = pytz.timezone('America/New_York') london_timezone = pytz.timezone('Europe/London') tokyo_timezone = pytz.timezone('Asia/Tokyo') au_timezone = pytz.timezone('Australia/Sydney') dubai_timezone = pytz.timezone('Asia/Dubai') la_timezone = pytz.timezone('America/Los_Angeles') cn_timezone = pytz.timezone('Asia/Shanghai') paris_timezone = pytz.timezone('Europe/Paris') in_timezone = pytz.timezone('Asia/Kolkata') auck_timezone = pytz.timezone('Pacific/Auckland') bang_timezone = pytz.timezone('Asia/Bangkok') istan_timezone = pytz.timezone('Europe/Istanbul') pause = int(worldclock_set['pause']) if pause % 2 != 0: pause += 1 transition = worldclock_set['transition'].lower() if worldclock_set['speed'].lower() == 'slow': speed = 0.05 elif worldclock_set['speed'].lower() == 'medium': speed = 0.02 else: speed = 0.01 counter = 0 counter2 = 0 time_offset = 0 #DOWN y_coord_down = -32 y_time1_down = 40 y_time2_down = 51 y_time3_down = 62 y_line1_down = 42 y_line2_down = 53 #UP y_coord_up = 32 y_time1_up = -24 y_time2_up = -13 y_time3_up = -2 y_line1_up = -22 y_line2_up = -11 #CONT if settings['display_pm'] and settings['display_seconds']: x_offset = 72 elif settings['display_pm'] and not settings['display_seconds']: x_offset = 87 elif not settings['display_pm'] and settings['display_seconds']: x_offset = 87 else: x_offset = 102 x_coord_cont = 0 x_time = x_offset + 128 x_line = 128 x_city = 130 #SCROLL OUT finalcount = 0 counter3 = 0 x_time_out = 0 x_line_out = 0 x_city_out = 0 time_offset2 = 0 while counter3 <= 130: while counter2 <= (pause): if transition == 'up': while y_coord_down < 0: y_coord_down += 1 y_time1_down -= 1 y_time2_down -= 1 y_time3_down -= 1 y_line1_down -= 1 y_line2_down -= 1 if 0 <= counter <= 5: canvas.Clear() if time_offset % (1/speed) == 0: ny_time = getTimes(ny_timezone) london_time = getTimes(london_timezone) tokyo_time = getTimes(tokyo_timezone) counter += 1 ny_color = time_colors['day'] if isDaytime(ny_time) else time_colors['night'] london_color = time_colors['day'] if isDaytime(london_time) else time_colors['night'] tokyo_color = time_colors['day'] if isDaytime(tokyo_time) else time_colors['night'] if not settings['display_pm']: ny_time = ny_time.replace("PM", "").replace("AM", "") london_time = london_time.replace("PM", "").replace("AM", "") tokyo_time = tokyo_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, 2, y_time1_down, color, 'NEW YORK') graphics.DrawText(canvas, font, x_offset, y_time1_down, ny_color, ny_time) graphics.DrawLine(canvas, 0, y_line1_down, 128, y_line1_down, line_c) graphics.DrawText(canvas, font, 2, y_time2_down, color, 'LONDON') graphics.DrawText(canvas, font, x_offset, y_time2_down, london_color, london_time) graphics.DrawLine(canvas, 0, y_line2_down, 128, y_line2_down, line_c) graphics.DrawText(canvas, font, 2, y_time3_down, color, 'TOKYO') graphics.DrawText(canvas, font, x_offset, y_time3_down, tokyo_color, tokyo_time) canvas = self.matrix.SwapOnVSync(canvas) elif 6 <= counter <= 11: canvas.Clear() if counter == 6: au_time = getTimes(au_timezone) dubai_time = getTimes(dubai_timezone) la_time = getTimes(la_timezone) au_color = time_colors['day'] if isDaytime(au_time) else time_colors['night'] dubai_color = time_colors['day'] if isDaytime(dubai_time) else time_colors['night'] la_color = time_colors['day'] if isDaytime(la_time) else time_colors['night'] if time_offset % (1/speed) == 0: au_time = getTimes(au_timezone) dubai_time = getTimes(dubai_timezone) la_time = getTimes(la_timezone) counter += 1 au_color = time_colors['day'] if isDaytime(au_time) else time_colors['night'] dubai_color = time_colors['day'] if isDaytime(dubai_time) else time_colors['night'] la_color = time_colors['day'] if isDaytime(la_time) else time_colors['night'] if not settings['display_pm']: au_time = au_time.replace("PM", "").replace("AM", "") dubai_time = dubai_time.replace("PM", "").replace("AM", "") la_time = la_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset, y_time1_down, au_color, au_time) graphics.DrawText(canvas, font, 2, y_time1_down, color, 'SYDNEY') graphics.DrawLine(canvas, 0, y_line1_down, 128, y_line1_down, line_c) graphics.DrawText(canvas, font, x_offset, y_time2_down, dubai_color, dubai_time) graphics.DrawText(canvas, font, 2, y_time2_down, color, 'DUBAI') graphics.DrawLine(canvas, 0, y_line2_down, 128, y_line2_down, line_c) graphics.DrawText(canvas, font, x_offset, y_time3_down, la_color, la_time) graphics.DrawText(canvas, font, 2, y_time3_down, color, 'LOS ANGELES') canvas = self.matrix.SwapOnVSync(canvas) elif 12 <= counter <= 17: canvas.Clear() if counter == 12: cn_time = getTimes(cn_timezone) paris_time = getTimes(paris_timezone) in_time = getTimes(in_timezone) cn_color = time_colors['day'] if isDaytime(cn_time) else time_colors['night'] paris_color = time_colors['day'] if isDaytime(paris_time) else time_colors['night'] in_color = time_colors['day'] if isDaytime(in_time) else time_colors['night'] if time_offset % (1/speed) == 0: cn_time = getTimes(cn_timezone) paris_time = getTimes(paris_timezone) in_time = getTimes(in_timezone) counter += 1 cn_color = time_colors['day'] if isDaytime(cn_time) else time_colors['night'] paris_color = time_colors['day'] if isDaytime(paris_time) else time_colors['night'] in_color = time_colors['day'] if isDaytime(in_time) else time_colors['night'] if not settings['display_pm']: cn_time = cn_time.replace("PM", "").replace("AM", "") paris_time = paris_time.replace("PM", "").replace("AM", "") in_time = in_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset, y_time1_down, cn_color, cn_time) graphics.DrawText(canvas, font, 2, y_time1_down, color, 'SHANGHAI') graphics.DrawText(canvas, font, x_offset, y_time2_down, paris_color, paris_time) graphics.DrawLine(canvas, 0, y_line1_down, 128, y_line1_down, line_c) graphics.DrawText(canvas, font, 2, y_time2_down, color, 'PARIS') graphics.DrawText(canvas, font, x_offset, y_time3_down, in_color, in_time) graphics.DrawLine(canvas, 0, y_line2_down, 128, y_line2_down, line_c) graphics.DrawText(canvas, font, 2, y_time3_down, color, 'MUMBAI') canvas = self.matrix.SwapOnVSync(canvas) elif 18 <= counter <= 23: canvas.Clear() if counter == 18: auck_time = getTimes(auck_timezone) bang_time = getTimes(bang_timezone) istan_time = getTimes(istan_timezone) auck_color = time_colors['day'] if isDaytime(auck_time) else time_colors['night'] bang_color = time_colors['day'] if isDaytime(bang_time) else time_colors['night'] istan_color = time_colors['day'] if isDaytime(istan_time) else time_colors['night'] if time_offset % (1/speed) == 0: auck_time = getTimes(auck_timezone) bang_time = getTimes(bang_timezone) istan_time = getTimes(istan_timezone) counter += 1 auck_color = time_colors['day'] if isDaytime(auck_time) else time_colors['night'] bang_color = time_colors['day'] if isDaytime(bang_time) else time_colors['night'] istan_color = time_colors['day'] if isDaytime(istan_time) else time_colors['night'] if not settings['display_pm']: auck_time = auck_time.replace("PM", "").replace("AM", "") bang_time = bang_time.replace("PM", "").replace("AM", "") istan_time = istan_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset, y_time1_down, auck_color, auck_time) graphics.DrawText(canvas, font, 2, y_time1_down, color, 'AUCKLAND') graphics.DrawText(canvas, font, x_offset, y_time2_down, bang_color, bang_time) graphics.DrawLine(canvas, 0, y_line1_down, 128, y_line1_down, line_c) graphics.DrawText(canvas, font, 2, y_time2_down, color, 'BANGKOK') graphics.DrawText(canvas, font, x_offset, y_time3_down, istan_color, istan_time) graphics.DrawLine(canvas, 0, y_line2_down, 128, y_line2_down, line_c) graphics.DrawText(canvas, font, 2, y_time3_down, color, 'ISTANBUL') canvas = self.matrix.SwapOnVSync(canvas) if counter == 24: counter = 0 time_offset += 1 time.sleep(speed) if y_coord_down == 0: break if transition == 'down': while y_coord_up > 0: y_coord_up -= 1 y_time1_up += 1 y_time2_up += 1 y_time3_up += 1 y_line1_up += 1 y_line2_up += 1 if 0 <= counter <= 5: canvas.Clear() if time_offset % (1/speed) == 0: ny_time = getTimes(ny_timezone) london_time = getTimes(london_timezone) tokyo_time = getTimes(tokyo_timezone) counter += 1 ny_color = time_colors['day'] if isDaytime(ny_time) else time_colors['night'] london_color = time_colors['day'] if isDaytime(london_time) else time_colors['night'] tokyo_color = time_colors['day'] if isDaytime(tokyo_time) else time_colors['night'] if not settings['display_pm']: ny_time = ny_time.replace("PM", "").replace("AM", "") london_time = london_time.replace("PM", "").replace("AM", "") tokyo_time = tokyo_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, 2, y_time1_up, color, 'NEW YORK') graphics.DrawText(canvas, font, x_offset, y_time1_up, ny_color, ny_time) graphics.DrawLine(canvas, 0, y_line1_up, 128, y_line1_up, line_c) graphics.DrawText(canvas, font, 2, y_time2_up, color, 'LONDON') graphics.DrawText(canvas, font, x_offset, y_time2_up, london_color, london_time) graphics.DrawLine(canvas, 0, y_line2_up, 128, y_line2_up, line_c) graphics.DrawText(canvas, font, 2, y_time3_up, color, 'TOKYO') graphics.DrawText(canvas, font, x_offset, y_time3_up, tokyo_color, tokyo_time) canvas = self.matrix.SwapOnVSync(canvas) elif 6 <= counter <= 11: canvas.Clear() if counter == 6: au_time = getTimes(au_timezone) dubai_time = getTimes(dubai_timezone) la_time = getTimes(la_timezone) au_color = time_colors['day'] if isDaytime(au_time) else time_colors['night'] dubai_color = time_colors['day'] if isDaytime(dubai_time) else time_colors['night'] la_color = time_colors['day'] if isDaytime(la_time) else time_colors['night'] if time_offset % (1/speed) == 0: au_time = getTimes(au_timezone) dubai_time = getTimes(dubai_timezone) la_time = getTimes(la_timezone) counter += 1 au_color = time_colors['day'] if isDaytime(au_time) else time_colors['night'] dubai_color = time_colors['day'] if isDaytime(dubai_time) else time_colors['night'] la_color = time_colors['day'] if isDaytime(la_time) else time_colors['night'] if not settings['display_pm']: au_time = au_time.replace("PM", "").replace("AM", "") dubai_time = dubai_time.replace("PM", "").replace("AM", "") la_time = la_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset, y_time1_up, au_color, au_time) graphics.DrawText(canvas, font, 2, y_time1_up, color, 'SYDNEY') graphics.DrawLine(canvas, 0, y_line1_up, 128, y_line1_up, line_c) graphics.DrawText(canvas, font, x_offset, y_time2_up, dubai_color, dubai_time) graphics.DrawText(canvas, font, 2, y_time2_up, color, 'DUBAI') graphics.DrawLine(canvas, 0, y_line2_up, 128, y_line2_up, line_c) graphics.DrawText(canvas, font, x_offset, y_time3_up, la_color, la_time) graphics.DrawText(canvas, font, 2, y_time3_up, color, 'LOS ANGELES') canvas = self.matrix.SwapOnVSync(canvas) elif 12 <= counter <= 17: canvas.Clear() if counter == 12: cn_time = getTimes(cn_timezone) paris_time = getTimes(paris_timezone) in_time = getTimes(in_timezone) cn_color = time_colors['day'] if isDaytime(cn_time) else time_colors['night'] paris_color = time_colors['day'] if isDaytime(paris_time) else time_colors['night'] in_color = time_colors['day'] if isDaytime(in_time) else time_colors['night'] if time_offset % (1/speed) == 0: cn_time = getTimes(cn_timezone) paris_time = getTimes(paris_timezone) in_time = getTimes(in_timezone) counter += 1 cn_color = time_colors['day'] if isDaytime(cn_time) else time_colors['night'] paris_color = time_colors['day'] if isDaytime(paris_time) else time_colors['night'] in_color = time_colors['day'] if isDaytime(in_time) else time_colors['night'] if not settings['display_pm']: cn_time = cn_time.replace("PM", "").replace("AM", "") paris_time = paris_time.replace("PM", "").replace("AM", "") in_time = in_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset, y_time1_up, cn_color, cn_time) graphics.DrawText(canvas, font, 2, y_time1_up, color, 'SHANGHAI') graphics.DrawText(canvas, font, x_offset, y_time2_up, paris_color, paris_time) graphics.DrawLine(canvas, 0, y_line1_up, 128, y_line1_up, line_c) graphics.DrawText(canvas, font, 2, y_time2_up, color, 'PARIS') graphics.DrawText(canvas, font, x_offset, y_time3_up, in_color, in_time) graphics.DrawLine(canvas, 0, y_line2_up, 128, y_line2_up, line_c) graphics.DrawText(canvas, font, 2, y_time3_up, color, 'MUMBAI') canvas = self.matrix.SwapOnVSync(canvas) elif 18 <= counter <= 23: canvas.Clear() if counter == 18: auck_time = getTimes(auck_timezone) bang_time = getTimes(bang_timezone) istan_time = getTimes(istan_timezone) auck_color = time_colors['day'] if isDaytime(auck_time) else time_colors['night'] bang_color = time_colors['day'] if isDaytime(bang_time) else time_colors['night'] istan_color = time_colors['day'] if isDaytime(istan_time) else time_colors['night'] if time_offset % (1/speed) == 0: auck_time = getTimes(auck_timezone) bang_time = getTimes(bang_timezone) istan_time = getTimes(istan_timezone) counter += 1 auck_color = time_colors['day'] if isDaytime(auck_time) else time_colors['night'] bang_color = time_colors['day'] if isDaytime(bang_time) else time_colors['night'] istan_color = time_colors['day'] if isDaytime(istan_time) else time_colors['night'] if not settings['display_pm']: auck_time = auck_time.replace("PM", "").replace("AM", "") bang_time = bang_time.replace("PM", "").replace("AM", "") istan_time = istan_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset, y_time1_up, auck_color, auck_time) graphics.DrawText(canvas, font, 2, y_time1_up, color, 'AUCKLAND') graphics.DrawText(canvas, font, x_offset, y_time2_up, bang_color, bang_time) graphics.DrawLine(canvas, 0, y_line1_up, 128, y_line1_up, line_c) graphics.DrawText(canvas, font, 2, y_time2_up, color, 'BANGKOK') graphics.DrawText(canvas, font, x_offset, y_time3_up, istan_color, istan_time) graphics.DrawLine(canvas, 0, y_line2_up, 128, y_line2_up, line_c) graphics.DrawText(canvas, font, 2, y_time3_up, color, 'ISTANBUL') canvas = self.matrix.SwapOnVSync(canvas) if counter == 24: counter = 0 time_offset += 1 time.sleep(speed) if y_coord_up == 0: break if transition == 'continuous': while x_coord_cont < 128: x_coord_cont += 1 x_time -= 1 x_line -= 1 x_city -= 1 if 0 <= counter <= 5: canvas.Clear() if time_offset % (1/speed) == 0: ny_time = getTimes(ny_timezone) london_time = getTimes(london_timezone) tokyo_time = getTimes(tokyo_timezone) counter += 1 ny_color = time_colors['day'] if isDaytime(ny_time) else time_colors['night'] london_color = time_colors['day'] if isDaytime(london_time) else time_colors['night'] tokyo_color = time_colors['day'] if isDaytime(tokyo_time) else time_colors['night'] if not settings['display_pm']: ny_time = ny_time.replace("PM", "").replace("AM", "") london_time = london_time.replace("PM", "").replace("AM", "") tokyo_time = tokyo_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_city, 8, color, 'NEW YORK') graphics.DrawText(canvas, font, x_time, 8, ny_color, ny_time) graphics.DrawLine(canvas, x_line, 10, 128, 10, line_c) graphics.DrawText(canvas, font, x_city, 19, color, 'LONDON') graphics.DrawText(canvas, font, x_time, 19, london_color, london_time) graphics.DrawLine(canvas, x_line, 21, 128, 21, line_c) graphics.DrawText(canvas, font, x_city, 30, color, 'TOKYO') graphics.DrawText(canvas, font, x_time, 30, tokyo_color, tokyo_time) canvas = self.matrix.SwapOnVSync(canvas) elif 6 <= counter <= 11: canvas.Clear() if counter == 6: au_time = getTimes(au_timezone) dubai_time = getTimes(dubai_timezone) la_time = getTimes(la_timezone) au_color = time_colors['day'] if isDaytime(au_time) else time_colors['night'] dubai_color = time_colors['day'] if isDaytime(dubai_time) else time_colors['night'] la_color = time_colors['day'] if isDaytime(la_time) else time_colors['night'] if time_offset % (1/speed) == 0: au_time = getTimes(au_timezone) dubai_time = getTimes(dubai_timezone) la_time = getTimes(la_timezone) counter += 1 au_color = time_colors['day'] if isDaytime(au_time) else time_colors['night'] dubai_color = time_colors['day'] if isDaytime(dubai_time) else time_colors['night'] la_color = time_colors['day'] if isDaytime(la_time) else time_colors['night'] if not settings['display_pm']: au_time = au_time.replace("PM", "").replace("AM", "") dubai_time = dubai_time.replace("PM", "").replace("AM", "") la_time = la_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_time, 8, au_color, au_time) graphics.DrawText(canvas, font, x_city, 8, color, 'SYDNEY') graphics.DrawLine(canvas, x_line, 10, 128, 10, line_c) graphics.DrawText(canvas, font, x_time, 19, dubai_color, dubai_time) graphics.DrawText(canvas, font, x_city, 19, color, 'DUBAI') graphics.DrawLine(canvas, x_line, 21, 128, 21, line_c) graphics.DrawText(canvas, font, x_time, 30, la_color, la_time) graphics.DrawText(canvas, font, x_city, 30, color, 'LOS ANGELES') canvas = self.matrix.SwapOnVSync(canvas) elif 12 <= counter <= 17: canvas.Clear() if counter == 12: cn_time = getTimes(cn_timezone) paris_time = getTimes(paris_timezone) in_time = getTimes(in_timezone) cn_color = time_colors['day'] if isDaytime(cn_time) else time_colors['night'] paris_color = time_colors['day'] if isDaytime(paris_time) else time_colors['night'] in_color = time_colors['day'] if isDaytime(in_time) else time_colors['night'] if time_offset % (1/speed) == 0: cn_time = getTimes(cn_timezone) paris_time = getTimes(paris_timezone) in_time = getTimes(in_timezone) counter += 1 cn_color = time_colors['day'] if isDaytime(cn_time) else time_colors['night'] paris_color = time_colors['day'] if isDaytime(paris_time) else time_colors['night'] in_color = time_colors['day'] if isDaytime(in_time) else time_colors['night'] if not settings['display_pm']: cn_time = cn_time.replace("PM", "").replace("AM", "") paris_time = paris_time.replace("PM", "").replace("AM", "") in_time = in_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_time, 8, cn_color, cn_time) graphics.DrawText(canvas, font, x_city, 8, color, 'SHANGHAI') graphics.DrawText(canvas, font, x_time, 19, paris_color, paris_time) graphics.DrawLine(canvas, x_line, 10, 128, 10, line_c) graphics.DrawText(canvas, font, x_city, 19, color, 'PARIS') graphics.DrawText(canvas, font, x_time, 30, in_color, in_time) graphics.DrawLine(canvas, x_line, 21, 128, 21, line_c) graphics.DrawText(canvas, font, x_city, 30, color, 'MUMBAI') canvas = self.matrix.SwapOnVSync(canvas) elif 18 <= counter <= 23: canvas.Clear() if counter == 18: auck_time = getTimes(auck_timezone) bang_time = getTimes(bang_timezone) istan_time = getTimes(istan_timezone) auck_color = time_colors['day'] if isDaytime(auck_time) else time_colors['night'] bang_color = time_colors['day'] if isDaytime(bang_time) else time_colors['night'] istan_color = time_colors['day'] if isDaytime(istan_time) else time_colors['night'] if time_offset % (1/speed) == 0: auck_time = getTimes(auck_timezone) bang_time = getTimes(bang_timezone) istan_time = getTimes(istan_timezone) counter += 1 auck_color = time_colors['day'] if isDaytime(auck_time) else time_colors['night'] bang_color = time_colors['day'] if isDaytime(bang_time) else time_colors['night'] istan_color = time_colors['day'] if isDaytime(istan_time) else time_colors['night'] if not settings['display_pm']: auck_time = auck_time.replace("PM", "").replace("AM", "") bang_time = bang_time.replace("PM", "").replace("AM", "") istan_time = istan_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_time, 8, auck_color, auck_time) graphics.DrawText(canvas, font, x_city, 8, color, 'AUCKLAND') graphics.DrawText(canvas, font, x_time, 19, bang_color, bang_time) graphics.DrawLine(canvas, x_line, 10, 128, 10, line_c) graphics.DrawText(canvas, font, x_city, 19, color, 'BANGKOK') graphics.DrawText(canvas, font, x_time, 30, istan_color, istan_time) graphics.DrawLine(canvas, x_line, 21, 128, 21, line_c) graphics.DrawText(canvas, font, x_city, 30, color, 'ISTANBUL') canvas = self.matrix.SwapOnVSync(canvas) if counter == 24: counter = 0 time_offset += 1 time.sleep(speed) if x_coord_cont == 0: break #WHEN TRANSITION ENDS, PAUSE ON SCREEN if 0 <= counter <= 5: canvas.Clear() ny_time = getTimes(ny_timezone) london_time = getTimes(london_timezone) tokyo_time = getTimes(tokyo_timezone) ny_color = time_colors['day'] if isDaytime(ny_time) else time_colors['night'] london_color = time_colors['day'] if isDaytime(london_time) else time_colors['night'] tokyo_color = time_colors['day'] if isDaytime(tokyo_time) else time_colors['night'] if not settings['display_pm']: ny_time = ny_time.replace("PM", "").replace("AM", "") london_time = london_time.replace("PM", "").replace("AM", "") tokyo_time = tokyo_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, 2, 8, color, 'NEW YORK') graphics.DrawText(canvas, font, x_offset, 8, ny_color, ny_time) graphics.DrawLine(canvas, 0, 10, 128, 10, line_c) graphics.DrawText(canvas, font, 2, 19, color, 'LONDON') graphics.DrawText(canvas, font, x_offset, 19, london_color, london_time) graphics.DrawLine(canvas, 0, 21, 128, 21, line_c) graphics.DrawText(canvas, font, 2, 30, color, 'TOKYO') graphics.DrawText(canvas, font, x_offset, 30, tokyo_color, tokyo_time) canvas = self.matrix.SwapOnVSync(canvas) counter += 1 elif 6 <= counter <= 11: canvas.Clear() au_time = getTimes(au_timezone) dubai_time = getTimes(dubai_timezone) la_time = getTimes(la_timezone) au_color = time_colors['day'] if isDaytime(au_time) else time_colors['night'] dubai_color = time_colors['day'] if isDaytime(dubai_time) else time_colors['night'] la_color = time_colors['day'] if isDaytime(la_time) else time_colors['night'] if not settings['display_pm']: au_time = au_time.replace("PM", "").replace("AM", "") dubai_time = dubai_time.replace("PM", "").replace("AM", "") la_time = la_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset, 8, au_color, au_time) graphics.DrawText(canvas, font, 2, 8, color, 'SYDNEY') graphics.DrawLine(canvas, 0, 10, 128, 10, line_c) graphics.DrawText(canvas, font, x_offset, 19, dubai_color, dubai_time) graphics.DrawText(canvas, font, 2, 19, color, 'DUBAI') graphics.DrawLine(canvas, 0, 21, 128, 21, line_c) graphics.DrawText(canvas, font, x_offset, 30, la_color, la_time) graphics.DrawText(canvas, font, 2, 30, color, 'LOS ANGELES') canvas = self.matrix.SwapOnVSync(canvas) counter += 1 elif 12 <= counter <= 17: canvas.Clear() cn_time = getTimes(cn_timezone) paris_time = getTimes(paris_timezone) in_time = getTimes(in_timezone) cn_color = time_colors['day'] if isDaytime(cn_time) else time_colors['night'] paris_color = time_colors['day'] if isDaytime(paris_time) else time_colors['night'] in_color = time_colors['day'] if isDaytime(in_time) else time_colors['night'] if not settings['display_pm']: cn_time = cn_time.replace("PM", "").replace("AM", "") paris_time = paris_time.replace("PM", "").replace("AM", "") in_time = in_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset, 8, cn_color, cn_time) graphics.DrawText(canvas, font, 2, 8, color, 'SHANGHAI') graphics.DrawText(canvas, font, x_offset, 19, paris_color, paris_time) graphics.DrawLine(canvas, 0, 10, 128, 10, line_c) graphics.DrawText(canvas, font, 2, 19, color, 'PARIS') graphics.DrawText(canvas, font, x_offset, 30, in_color, in_time) graphics.DrawLine(canvas, 0, 21, 128, 21, line_c) graphics.DrawText(canvas, font, 2, 30, color, 'MUMBAI') canvas = self.matrix.SwapOnVSync(canvas) counter += 1 elif 18 <= counter <= 23: canvas.Clear() auck_time = getTimes(auck_timezone) bang_time = getTimes(bang_timezone) istan_time = getTimes(istan_timezone) auck_color = time_colors['day'] if isDaytime(auck_time) else time_colors['night'] bang_color = time_colors['day'] if isDaytime(bang_time) else time_colors['night'] istan_color = time_colors['day'] if isDaytime(istan_time) else time_colors['night'] if not settings['display_pm']: auck_time = auck_time.replace("PM", "").replace("AM", "") bang_time = bang_time.replace("PM", "").replace("AM", "") istan_time = istan_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset, 8, auck_color, auck_time) graphics.DrawText(canvas, font, 2, 8, color, 'AUCKLAND') graphics.DrawText(canvas, font, x_offset, 19, bang_color, bang_time) graphics.DrawLine(canvas, 0, 10, 128, 10, line_c) graphics.DrawText(canvas, font, 2, 19, color, 'BANGKOK') graphics.DrawText(canvas, font, x_offset, 30, istan_color, istan_time) graphics.DrawLine(canvas, 0, 21, 128, 21, line_c) graphics.DrawText(canvas, font, 2, 30, color, 'ISTANBUL') canvas = self.matrix.SwapOnVSync(canvas) counter += 1 if counter == 24: counter = 0 counter2 += 1 time.sleep(1) kill=self.checkKilled() if kill:break #SCROLL OUT BEGINS if finalcount == 0: ny_time = getTimes(ny_timezone) london_time = getTimes(london_timezone) tokyo_time = getTimes(tokyo_timezone) ny_color = time_colors['day'] if isDaytime(ny_time) else time_colors['night'] london_color = time_colors['day'] if isDaytime(london_time) else time_colors['night'] tokyo_color = time_colors['day'] if isDaytime(tokyo_time) else time_colors['night'] au_time = getTimes(au_timezone) dubai_time = getTimes(dubai_timezone) la_time = getTimes(la_timezone) au_color = time_colors['day'] if isDaytime(au_time) else time_colors['night'] dubai_color = time_colors['day'] if isDaytime(dubai_time) else time_colors['night'] la_color = time_colors['day'] if isDaytime(la_time) else time_colors['night'] cn_time = getTimes(cn_timezone) paris_time = getTimes(paris_timezone) in_time = getTimes(in_timezone) cn_color = time_colors['day'] if isDaytime(cn_time) else time_colors['night'] paris_color = time_colors['day'] if isDaytime(paris_time) else time_colors['night'] in_color = time_colors['day'] if isDaytime(in_time) else time_colors['night'] auck_time = getTimes(auck_timezone) bang_time = getTimes(bang_timezone) istan_time = getTimes(istan_timezone) auck_color = time_colors['day'] if isDaytime(auck_time) else time_colors['night'] bang_color = time_colors['day'] if isDaytime(bang_time) else time_colors['night'] istan_color = time_colors['day'] if isDaytime(istan_time) else time_colors['night'] finalcount += 1 if 0 <= counter <= 5: canvas.Clear() if time_offset2 % (1/speed) == 0: counter += 1 ny_time = getTimes(ny_timezone) london_time = getTimes(london_timezone) tokyo_time = getTimes(tokyo_timezone) ny_color = time_colors['day'] if isDaytime(ny_time) else time_colors['night'] london_color = time_colors['day'] if isDaytime(london_time) else time_colors['night'] tokyo_color = time_colors['day'] if isDaytime(tokyo_time) else time_colors['night'] if not settings['display_pm']: ny_time = ny_time.replace("PM", "").replace("AM", "") london_time = london_time.replace("PM", "").replace("AM", "") tokyo_time = tokyo_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, 2 + x_city_out, 8, color, 'NEW YORK') graphics.DrawText(canvas, font, x_offset + x_time_out, 8, ny_color, ny_time) graphics.DrawLine(canvas, 0, 10, 128 + x_line_out, 10, line_c) graphics.DrawText(canvas, font, 2 + x_city_out, 19, color, 'LONDON') graphics.DrawText(canvas, font, x_offset + x_time_out, 19, london_color, london_time) graphics.DrawLine(canvas, 0, 21, 128 + x_line_out, 21, line_c) graphics.DrawText(canvas, font, 2 + x_city_out, 30, color, 'TOKYO') graphics.DrawText(canvas, font, x_offset + x_time_out, 30, tokyo_color, tokyo_time) canvas = self.matrix.SwapOnVSync(canvas) elif 6 <= counter <= 11: canvas.Clear() if counter == 6: au_time = getTimes(au_timezone) dubai_time = getTimes(dubai_timezone) la_time = getTimes(la_timezone) au_color = time_colors['day'] if isDaytime(au_time) else time_colors['night'] dubai_color = time_colors['day'] if isDaytime(dubai_time) else time_colors['night'] la_color = time_colors['day'] if isDaytime(la_time) else time_colors['night'] if time_offset2 % (1/speed) == 0: counter += 1 au_time = getTimes(au_timezone) dubai_time = getTimes(dubai_timezone) la_time = getTimes(la_timezone) au_color = time_colors['day'] if isDaytime(au_time) else time_colors['night'] dubai_color = time_colors['day'] if isDaytime(dubai_time) else time_colors['night'] la_color = time_colors['day'] if isDaytime(la_time) else time_colors['night'] if not settings['display_pm']: au_time = au_time.replace("PM", "").replace("AM", "") dubai_time = dubai_time.replace("PM", "").replace("AM", "") la_time = la_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset + x_time_out, 8, au_color, au_time) graphics.DrawText(canvas, font, 2 + x_city_out, 8, color, 'SYDNEY') graphics.DrawLine(canvas, 0, 10, 128 + x_line_out, 10, line_c) graphics.DrawText(canvas, font, x_offset + x_time_out, 19, dubai_color, dubai_time) graphics.DrawText(canvas, font, 2 + x_city_out, 19, color, 'DUBAI') graphics.DrawLine(canvas, 0, 21, 128 + x_line_out, 21, line_c) graphics.DrawText(canvas, font, x_offset + x_time_out, 30, la_color, la_time) graphics.DrawText(canvas, font, 2 + x_city_out, 30, color, 'LOS ANGELES') canvas = self.matrix.SwapOnVSync(canvas) elif 12 <= counter <= 17: canvas.Clear() if counter == 12: cn_time = getTimes(cn_timezone) paris_time = getTimes(paris_timezone) in_time = getTimes(in_timezone) cn_color = time_colors['day'] if isDaytime(cn_time) else time_colors['night'] paris_color = time_colors['day'] if isDaytime(paris_time) else time_colors['night'] in_color = time_colors['day'] if isDaytime(in_time) else time_colors['night'] if time_offset2 % (1/speed) == 0: counter += 1 cn_time = getTimes(cn_timezone) paris_time = getTimes(paris_timezone) in_time = getTimes(in_timezone) cn_color = time_colors['day'] if isDaytime(cn_time) else time_colors['night'] paris_color = time_colors['day'] if isDaytime(paris_time) else time_colors['night'] in_color = time_colors['day'] if isDaytime(in_time) else time_colors['night'] if not settings['display_pm']: cn_time = cn_time.replace("PM", "").replace("AM", "") paris_time = paris_time.replace("PM", "").replace("AM", "") in_time = in_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset + x_time_out, 8, cn_color, cn_time) graphics.DrawText(canvas, font, 2 + x_city_out, 8, color, 'SHANGHAI') graphics.DrawText(canvas, font, x_offset + x_time_out, 19, paris_color, paris_time) graphics.DrawLine(canvas, 0, 10, 128 + x_line_out, 10, line_c) graphics.DrawText(canvas, font, 2 + x_city_out, 19, color, 'PARIS') graphics.DrawText(canvas, font, x_offset + x_time_out, 30, in_color, in_time) graphics.DrawLine(canvas, 0, 21, 128 + x_line_out, 21, line_c) graphics.DrawText(canvas, font, 2 + x_city_out, 30, color, 'MUMBAI') canvas = self.matrix.SwapOnVSync(canvas) elif 18 <= counter <= 23: canvas.Clear() if counter == 18: auck_time = getTimes(auck_timezone) bang_time = getTimes(bang_timezone) istan_time = getTimes(istan_timezone) auck_color = time_colors['day'] if isDaytime(auck_time) else time_colors['night'] bang_color = time_colors['day'] if isDaytime(bang_time) else time_colors['night'] istan_color = time_colors['day'] if isDaytime(istan_time) else time_colors['night'] if time_offset2 % (1/speed) == 0: counter += 1 auck_time = getTimes(auck_timezone) bang_time = getTimes(bang_timezone) istan_time = getTimes(istan_timezone) auck_color = time_colors['day'] if isDaytime(auck_time) else time_colors['night'] bang_color = time_colors['day'] if isDaytime(bang_time) else time_colors['night'] istan_color = time_colors['day'] if isDaytime(istan_time) else time_colors['night'] if not settings['display_pm']: auck_time = auck_time.replace("PM", "").replace("AM", "") bang_time = bang_time.replace("PM", "").replace("AM", "") istan_time = istan_time.replace("PM", "").replace("AM", "") graphics.DrawText(canvas, font, x_offset + x_time_out, 8, auck_color, auck_time) graphics.DrawText(canvas, font, 2 + x_city_out, 8, color, 'AUCKLAND') graphics.DrawText(canvas, font, x_offset + x_time_out, 19, bang_color, bang_time) graphics.DrawLine(canvas, 0, 10, 128 + x_line_out, 10, line_c) graphics.DrawText(canvas, font, 2 + x_city_out, 19, color, 'BANGKOK') graphics.DrawText(canvas, font, x_offset + x_time_out, 30, istan_color, istan_time) graphics.DrawLine(canvas, 0, 21, 128 + x_line_out, 21, line_c) graphics.DrawText(canvas, font, 2 + x_city_out, 30, color, 'ISTANBUL') canvas = self.matrix.SwapOnVSync(canvas) if counter == 24: counter = 0 time_offset2 += 1 x_city_out -= 1 x_time_out -= 1 x_line_out -= 1 counter3 += 1 time.sleep(speed) kill=self.checkKilled() if kill:break return kill def ip_viewer(self): font = ImageFont.load("./fonts/6x10.pil") image = Image.new('RGB', (128, 32)) hostname = str(os.popen('hostname').read()).strip() + ".local:1024" mac_add = str(os.popen('cat /sys/class/net/wlan0/address').read()).replace(" ", "").strip() ip_add = str(os.popen('hostname -I').read()).replace(" ", "").strip() + ":1024" hostname_img = self.textImage(hostname, font, r = 255, g = 255 , b = 255) ip_img = self.textImage(ip_add, font, r = 255, g = 255 , b = 255) mac_img = self.textImage(mac_add, font, r = 255, g = 255 , b = 255) image.paste(hostname_img, (0,0)) image.paste(ip_img, (0,12)) image.paste(mac_img, (0,23)) stock_ticker.setImage(image) time.sleep(10) def displayStocks(self): self.scrollImageTransition(['final.ppm', 'final.ppm'], offset_x = 0, offset_y = 0) def displayProfessional(self): forex = self.getForexProfessional() crypto = self.getCryptoProfessional() news = self.getNewsProfessional() stock = self.getStockProfessional() weather = self.getTodayWeatherProfessional() commodities = self.getCommoditiesProfessional() indices = self.getIndicesProfessional() daily_forecast = self.getDailyWeatherProfessional() sports_stats = self.getLeagueTableProfessional() sports_upcoming = self.getLeagueProfessional() sports_past = self.getLeagueProfessional() sports_live = self.getLeagueProfessional() movies = self.getMoviesProfessional() messages = self.getUserMessagesProfessional() images = self.getUserImagesProfessional() ipo = self.getIpoProfessional() economic = self.getEconomicProfessional() jokes = self.getJokesProfessional() market = self.getMarketProfessional() sector = self.getSectorProfessional() place = self.getPlaceImageProfessional() quotes = self.getQuotesProfessional() x_offset = 0 news.paste(weather, (x_offset, 16)) x_offset += weather.size[0] news.paste(crypto, (x_offset, 16)) x_offset += crypto.size[0] news.paste(stock, (x_offset, 16)) x_offset += stock.size[0] news.paste(forex, (x_offset, 16)) x_offset += forex.size[0] news.paste(commodities, (x_offset, 16)) x_offset += commodities.size[0] news.paste(indices, (x_offset, 16)) x_offset += indices.size[0] news.paste(daily_forecast, (x_offset, 16)) x_offset += daily_forecast.size[0] news.paste(sports_stats, (x_offset, 16)) x_offset += sports_stats.size[0] news.paste(sports_upcoming, (x_offset, 16)) x_offset += sports_upcoming.size[0] news.paste(sports_past, (x_offset, 16)) x_offset += sports_past.size[0] news.paste(sports_live, (x_offset, 16)) x_offset += sports_live.size[0] news.paste(movies, (x_offset, 16)) x_offset += movies.size[0] news.paste(messages, (x_offset, 16)) x_offset += messages.size[0] news.paste(images, (x_offset, 16)) x_offset += images.size[0] news.paste(ipo, (x_offset, 16)) x_offset += ipo.size[0] news.paste(economic, (x_offset, 16)) x_offset += economic.size[0] news.paste(jokes, (x_offset, 16)) x_offset += jokes.size[0] news.paste(market, (x_offset, 16)) x_offset += market.size[0] news.paste(sector, (x_offset, 16)) x_offset += sector.size[0] news.paste(place, (x_offset, 16)) x_offset += place.size[0] news.paste(quotes, (x_offset, 16)) x_offset += quotes.size[0] self.double_buffer = self.matrix.CreateFrameCanvas() while True: kill = stock_ticker.scrollImage(news, offset_x = 128) if kill: break def process_msg(self, msg): if msg == 'S': # stocks self.scrollFunctionsAnimated(['stocks', 'stocks'], animation = 'traditional') elif msg == 'C': # crypto self.scrollFunctionsAnimated(['crypto', 'crypto'], animation = 'traditional') elif msg == 'F': # forex self.scrollFunctionsAnimated(['forex', 'forex'], animation = 'traditional') elif msg == 'N': #news self.scrollFunctionsAnimated(['news', 'news'], animation = 'traditional') # speed settings elif msg == 's': self.delay = 0.03 elif msg == 'm': self.delay = 0.02 elif msg == 'f': self.delay = 0.01 elif msg in ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9']: # birghtness ettings self.brightness = (float(msg)+1)*10 self.matrix.brightness = self.brightness elif msg == 'T':# text self.scrollFunctionsAnimated(['text', 'text'], animation = 'traditional') elif msg == 'I': # image self.scrollFunctionsAnimated(['display_image', 'display_image'], animation = 'traditional') elif msg == 'RP': # image self.scrollFunctionsAnimated(['place', 'place'], animation = 'traditional') elif msg == 'G': # gif self.scrollFunctionsAnimated(['display_gif', 'display_gif'], animation = 'traditional') elif msg == 'W': # weather self.scrollFunctionsAnimated(['today_weather', 'today_weather'], animation = 'traditional') elif msg == 'D': # daily weather self.scrollFunctionsAnimated(['daily_weather', 'daily_weather'],animation = 'traditional') elif msg == 'P': # past league self.scrollFunctionsAnimated(['past_games', 'past_games'],animation = 'traditional') elif msg == 'l': # future league self.scrollFunctionsAnimated(['future_games', 'future_games'],animation = 'traditional') elif msg == 'L': # live game self.scrollFunctionsAnimated(['live_games', 'live_games'],animation = 'traditional') elif msg == 't': #legue tble self.scrollFunctionsAnimated(['league_table', 'league_table'],animation = 'traditional') elif msg == 'CO': #commodities self.scrollFunctionsAnimated(['commodities', 'commodities'],animation = 'traditional') elif msg == 'WI': #indices self.scrollFunctionsAnimated(['indices', 'indices'],animation = 'traditional') elif msg == 'MO': #movies self.scrollFunctionsAnimated(['movies', 'movies'],animation = 'traditional') elif msg == 'IPO': #ipo self.scrollFunctionsAnimated(['ipo', 'ipo'],animation = 'traditional') elif msg == 'EC': #economic calendar self.scrollFunctionsAnimated(['economic', 'economic'],animation = 'traditional') elif msg == 'JO': # jokes self.scrollFunctionsAnimated(['jokes', 'jokes'],animation = 'traditional') elif msg == 'MA': # market self.scrollFunctionsAnimated(['market', 'market'],animation = 'traditional') elif msg == 'SE': self.scrollFunctionsAnimated(['sector', 'sector'],animation = 'traditional') elif msg == 'CL': self.scrollFunctionsAnimated(['clock1', 'clock1'],animation = 'traditional') elif msg == 'CL2': self.scrollFunctionsAnimated(['clock2', 'clock2'],animation = 'traditional') elif msg == 'WCL': self.scrollFunctionsAnimated(['worldclock', 'worldclock'],animation = 'traditional') elif msg == 'IQ': self.scrollFunctionsAnimated(['quotes', 'quotes'],animation = 'traditional') elif msg == 'A': #everything #userSettings = ['display_gif', 'text', 'display_image', 'stocks', 'crypto', 'forex', 'today_weather', 'daily_weather', 'league_table', 'league_games', 'news'] # these wil be read from csv, just for demo #userSettings = [ 'daily_weather'] #userSettings = ['crypto', 'stocks'] # these wil be read from csv, just for demo #userSettings = [ 'display_image', 'news'] # these wil be read from csv, just for demo f = open('csv/display_settings.json', 'r') user_settings = json.load(f) f.close() if 'Professional'==user_settings[0] and len(user_settings[1][0])>0 and len(user_settings[1][1])>0: #if professional display self.scrollProfessionalAnimated(user_settings[1]) elif len(user_settings[1][0])>0 and 'Standard'==user_settings[0]: self.scrollFunctionsAnimated(user_settings[1][0], animation = 'down') elif msg == 'b': userSettings = json.load(open('csv/display_settings.json')) self.scrollProfessionalAnimated(userSettings) #self.displayProfessional() elif msg == '+': stock_ticker.scrollMultiple() elif msg == 'K': # kill self.resetMatrix() elif msg =='-': self.run_intro_screen() elif msg == '*': # # start_GIF = Image.open('./logos/startup_logo1.gif') self.displayGIF(start_GIF, delay = 0.02, repeat = False) #stock_ticker.setImage(start_image) time.sleep(10) self.resetMatrix() time.sleep(2) self.ip_viewer() time.sleep(2) self.resetMatrix() def run_intro_screen(self): dct = {"feature": "Custom Messages", "speed": "Medium", "animation": "Down", "title": False, "messages": [{"name": "welcome", "text": "Welcome to Fintic!", "text_colour": "White", "size": "Large", "background_colour": "Black"}, {"name": "get_started", "text": "To get started, connect your device to the \"Fintic Hotspot\" and access \"fintic.local:1024\" on your web browser. You can connect your ticker to Wi-Fi there.", "text_colour": "White", "size": "Small", "background_colour": "Black"}]} json.dump(dct, open('csv/message_settings.json', 'w')) self.scrollFunctionsAnimated(['Custom Messages'], repeat = True) if __name__ == '__main__': try: stock_ticker = StockTicker() while True: msg = getInput() stock_ticker.process_msg(msg) except Exception as e: pass # logf = open('log.txt', "a") # exc_type, exc_obj, exc_tb = sys.exc_info() # fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] # logf.write(str(e)) # logf.write('. file: ' + fname) # logf.write('. line: ' + str(exc_tb.tb_lineno)) # logf.write('. type: ' + str(exc_type)) # logf.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) # logf.close()