# Copyright (C) 2020 Daniel Richardson richardson.daniel@hotmail.co.uk # # This file is part of stockTicker project for justinodunn. # # stockTicker can not be copied and/or distributed without the express # permission of Daniel Richardson import sys, select import os import threading from PIL import Image, ImageDraw, ImageFont import time import csv import requests import pexpect from rgbmatrix import RGBMatrix, RGBMatrixOptions from rgbmatrix.graphics import * from multiprocessing import Process import traceback import json from datetime import datetime 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.greenORred = (255, 255, 255) #self.blank = Image.open('logos/blank.png') self.blank = Image.new('RGB', (15, 32)) self.running = True self.brightness = 1.0 self.delay = 0.02 # 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 = 3 self.matrix = RGBMatrix(options = options) self.points = True # display crypto change in points or percent def openImage(self, image_file): image = Image.open(image_file) # 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=False, min_x = 0, max_x = 128, min_y = 0, max_y = 32): if (image.mode != "RGB"): raise Exception("Currently, only RGB mode is supported for SetImage(). Please create images with mode 'RGB' or convert first with image = image.convert('RGB'). Pull requests to support more modes natively are also welcome :)") 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)): (r, g, b) = pixels[x, y] if min_x <= x + offset_x <= max_x and min_y <= y + offset_y <= max_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): img_width, img_height = image.size while offset_x > -img_width: offset_x -= 1 self.setImage(image, offset_x = offset_x, offset_y = offset_y) # remove the ppixels behind the image, to stop trailing for x in range(offset_x + img_width, 128): for y in range(self.matrix.height): self.matrix.SetPixel(x , y , 0,0,0) try: msg = getInput() if msg == 'K': self.resetMatrix() return True self.process_msg(msg) except KeyboardInterrupt: sys.stdout.flush() pass time.sleep(self.delay) return False 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) try: msg = getInput() if msg == 'K': self.resetMatrix() return True self.process_msg(msg) except KeyboardInterrupt: sys.stdout.flush() pass time.sleep(self.delay) return False 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]) image2 = self.openImage(image_files[1]) 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]) image2 = self.openImage(image_files[1]) elif current_img == 2: if stocks: update_process = Process(target = self.getFullStockImage, args = (2,)) update_process.start() image1 = self.openImage(image_files[1]) image2 = self.openImage(image_files[0]) img_width, img_height = image1.size while offset_x > -img_width: offset_x -= 1 self.setImage(image1, offset_x = offset_x, offset_y = offset_y) if offset_x + img_width < self.matrix.width: # if the image is ending self.setImage(image2, offset_x = offset_x + img_width, offset_y = offset_y) time.sleep(self.delay) try: msg = getInput() if msg == 'K': self.resetMatrix() kill = True image1.close() image2.close() break self.process_msg(msg) except KeyboardInterrupt: sys.stdout.flush() pass if stocks: image1.close() image2.close() if kill: break if stocks: update_process.join() if current_img == 1: current_img = 2 elif current_img == 2: current_img = 1 offset_x = 0 def textImage(self, text, font, r = 255, g = 255, b = 255, matrix_height = False, buff = 0): ''' 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 + buff + 3, height+3)) d = ImageDraw.Draw(img) d.text((0, 0), text, fill=(r, g, b), font=font) return img def displayUserText(self): ''' displays the text entered in the webpage by the user. ''' f = open('csv/scroll_text.csv', 'r') CSV = csv.reader(f) text, r, g, b = next(CSV) f.close() font = ImageFont.load("./fonts/texgyre-27.pil") img = self.textImage(text, font, int(r), int(g), int(b), True, buff = 50) img.save('scroll_text.ppm') self.scrollImageTransition(['scroll_text.ppm', 'scroll_text.ppm'], offset_x = 128, offset_y = 0, stocks = False) def displayNews(self): headline_font = ImageFont.load("./fonts/10x20.pil") source_font = ImageFont.load("./fonts/10x20.pil") while True: headlines = [] source_date_times = [] f = open('csv/news.csv', 'r') CSV = csv.reader(f) next(CSV) for row in CSV: headline, source, date, time = row headlines.append(headline) source_date_times.append(source + ': ' + date + ' ' + time) f.close() if len(headlines) > 0: for i, headline in enumerate(headlines): headline = headline.replace("^", ",") headline = headline.replace("’", "'") headline = headline.replace("‘", "'") headline = headline.replace('“', '"') headline = headline.replace('”', '"') headline_img = self.textImage(headline, headline_font, matrix_height = True) source_img = self.textImage(source_date_times[i], source_font, r=255, g=255, b=0, matrix_height = True) try: 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, 'techcrunch' + '.png')) img = Image.new('RGB', (headline_img.size[0], 32)) img.paste(headline_img, (2, -3)) img.paste(source_img, (2,16)) img= self.stitchImage([logo,img]) except Exception as e: print(e) img = Image.new('RGB', (headline_img.size[0], 32)) img.paste(headline_img, (0,0)) img.paste(source_img, (0,16)) img.save('image.ppm') killed = self.scrollImage(img, offset_x = 128, offset_y = 0) #killed = self.scrollImageStacked(img, offset_x = 128, offset_y = 0) if killed: break else: print('new failed') if killed: break def displayGIF(self, gif): # To iterate through the entire gif i = 0 while True: try: gif.seek(i) except EOFError: print('finished') i = 0 gif.seek(i) # do something to im self.setImage(gif.convert('RGB')) time.sleep(0.5) 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: print('finished') 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) try: msg = getInput() if msg == 'K': gif.close() self.resetMatrix() return True self.process_msg(msg) except KeyboardInterrupt: sys.stdout.flush() pass return False #Using change between min and day price give appropriate arrow #and set the overall change colour def getArrow(self, CHANGE): self.greenORred logos_path = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos') if(CHANGE>0): Arrow = Image.open(os.path.join(logos_path, 'up.png')) self.greenORred = (0, 255, 0) return Arrow, CHANGE Arrow = Image.open(os.path.join(logos_path, 'down.png')) self.greenORred = (255, 0, 0) CHANGE = (CHANGE * -1) 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, CHANGE, ARROW): font = ImageFont.load("./fonts/10x20.pil") 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, 16), CURRENT, fill=self.greenORred, font=font) img.paste(ARROW, ((text_width_current + 9),18)) d.text(((text_width_current+29), 16), CHANGE, fill=self.greenORred, font=font) text_width_change, text_height = self.get_text_dimensions(CHANGE, font) newWidth = (text_width_current+29) + (text_width_change) 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) #Connect all the pieces togeather creating 1 long final stock image def getFullStockImage(self, updated_img): image_list = [] start = time.time() self.readCSV() for i, symbol in enumerate(self.symbols): info = self.stock_info[symbol] change = float(info[0])-float(info[1]) #TEXT ticker = symbol #TEXT current = '%.2f' % float(info[0]) #TEXT arrow, change = self.getArrow(change) change = '%.2f' % change midFrame = self.textToImage(ticker, current, change, arrow) #IMAGE THE TEXT try: logos_path = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos') logo = Image.open(os.path.join(logos_path, ticker + '.png')) stitchedStock = self.stitchImage([logo,midFrame]) except: stitchedStock = midFrame image_list.append(self.blank) image_list.append(stitchedStock) for i, coin in enumerate(self.coins): info = self.coin_info[coin] change = float(info[3]) #TEXT ticker = info[0] #TEXT current = float(info[2]) #TEXT base = info[1].upper() if self.points: # convert percent to points change = change/100 * current current = '%.2f' % current arrow, change = self.getArrow(change) change = '%.2f' % change midFrame = self.textToImage(ticker + '(' + base + ')', current, change, arrow) #IMAGE THE TEXT try: logos_path = os.path.join(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'logos'), 'crypto') logo = Image.open(os.path.join(logos_path, ticker + '.png')) stitchedStock = self.stitchImage([logo,midFrame]) except: stitchedStock = midFrame image_list.append(self.blank) image_list.append(stitchedStock) base, currency_info = json.load(open('csv/currency.json', 'r')) for i, currency in enumerate(['AUD', 'CAD', 'CHF', 'EUR', 'GBP', 'JPY', 'NZD']): current, yesterday = currency_info[currency] change = 1/current - 1/yesterday current = 1/current current = '%.3f' % current arrow, change = self.getArrow(change) change = '%.6f' % change midFrame = self.textToImage(currency + '(' + base + ')', current, change, arrow) #IMAGE THE TEXT 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, currency.lower() + '.png')) bse = Image.open(os.path.join(logos_path, base.lower() + '.png')) new_im = Image.new('RGB', (32, 32)) for im in image_list: new_im.paste(bse, (0,10), bse.convert('RGBA')) new_im.paste(logo, (10,0), logo.convert('RGBA')) stitchedStock = self.stitchImage([new_im, midFrame]) except: stitchedStock = midFrame image_list.append(self.blank) image_list.append(stitchedStock) finalDisplayImage = self.stitchImage(image_list) if updated_img == 1: finalDisplayImage.save('final.ppm') elif updated_img == 2: finalDisplayImage.save('final1.ppm') def getLeagueImage(self): img = Image.new('RGB', (10000, 32)) league_info = json.load(open('csv/sports/premier_league/past_games.json', 'r')) print(league_info[0].keys()) small_font = ImageFont.load("./fonts/5x7.pil") large_font = ImageFont.load("./fonts/10x20.pil") buff_size = 20 x_offset = 0 print(len(league_info)) for match in league_info[-15:]: home_team = match['home_team'] away_team = match['away_team'] home_score = match['home_score'] away_score = match['away_score'] date = match['date'] rond = match['round'] try: home_logo = Image.open('/home/pi/Desktop/stock_ticker/logos/sports/premier_league/' + home_team +'.png') except: home_logo = self.textImage(home_team.replace(' ', '\n'), small_font, r = 255, g = 255, b = 255) print(home_team) try: away_logo = Image.open('logos/sports/premier_league/' + away_team +'.png') except: away_logo = self.textImage(away_team.replace(' ', '\n'), small_font, r = 255, g = 255, b = 255) home_timage = self.textImage(home_team, small_font, r = 255, g = 255, b = 255) away_timage = self.textImage(away_team, small_font, r = 255, g = 255, b = 255) date_timage = self.textImage(date, small_font, r = 255, g = 255, b = 0) round_timage = self.textImage('round:' + rond, small_font, r = 255, g = 255, b = 255) score_image = self.textImage(home_score + '-' + away_score, large_font, r = 255, g = 255, b = 255) img.paste(home_logo, (x_offset,0)) x_offset += home_logo.size[0] + 2 #img.paste(home_timage, (x_offset, 0)) #img.paste(away_timage, (x_offset, 5)) img.paste(date_timage, (x_offset, 0)) img.paste(round_timage, (x_offset+ 7, 8)) img.paste(score_image, (x_offset+10, 15)) #x_offset += max(home_timage.size[0], away_timage.size[0], date_timage.size[0], round_timage.size[0], score_image.size[0]) x_offset += max( date_timage.size[0], round_timage.size[0], score_image.size[0]) img.paste(away_logo, (x_offset,0)) x_offset += away_logo.size[0] + 2 x_offset += buff_size img = img.crop((0,0,x_offset ,32)) return img def getTeamsImage(self): img = Image.new('RGB', (10000, 32)) team_info = json.load(open('csv/sports/premier_league/team_stats.json', 'r')) small_font = ImageFont.load("./fonts/5x7.pil") med_font = ImageFont.load("./fonts/7x14.pil") large_font = ImageFont.load("./fonts/10x20.pil") buff_size = 20 x_offset = 0 for team in team_info: try: logo = Image.open('logos/sports/premier_league/' + team['name'] +'.png') img.paste(logo, (x_offset, 0)) x_offset += logo.size[0] + 2 except: print('no logo for:', team['name']) name_timage = self.textImage(team['name'], med_font, r = 255, g = 255, b = 0) wins_timage = self.textImage('Wins:' + team['wins'], small_font, r = 0, g = 255, b = 0) loss_timage = self.textImage('Losses:' + team['loss'], small_font, r = 255, g = 0, b = 0) draw_timage = self.textImage('Draws:' + team['draw'], small_font, r = 0, g = 0, b = 255) points_timage = self.textImage('Points:' + team['points'], small_font, r = 255, g = 255, b = 255) standing_timage = self.textImage('Standing:' + team['standing'], small_font, r = 255, g = 255, b = 255) img.paste(name_timage, (x_offset, -2)) img.paste(wins_timage, (x_offset, 11)) img.paste(loss_timage, (x_offset, 18)) img.paste(draw_timage, (x_offset, 25)) x_offset += max( wins_timage.size[0], loss_timage.size[0], draw_timage.size[0]) img.paste(points_timage, (x_offset, 14)) img.paste(standing_timage, (x_offset, 22)) x_offset += max(points_timage.size[0], standing_timage.size[0]) + buff_size img = img.crop((0,0,x_offset ,32)) return img def getTodayWeatherImage(self): img = Image.new('RGB', (200, 32)) f = open( "csv/weather_location.txt", 'r' ) location = f.read() f.close() current_weather = json.load(open('csv/current_weather.json', 'r')) small_font = ImageFont.load("./fonts/5x7.pil") large_font = ImageFont.load("./fonts/10x20.pil") location_img = self.textImage(location, small_font, r = 255, g = 255, b = 0) img.paste(location_img, (5,0)) 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') img.paste(weather_img, (5,9)) temp_img = self.textImage(str("{0:.0f}".format(current_weather['temp'])), large_font) img.paste(temp_img, (36,9)) deg_img = self.textImage('o', small_font) img.paste(deg_img, (56, 8)) main = current_weather['main_weather'] main_img = self.textImage(main, small_font) img.paste(main_img, (34, 26)) feels_img = self.textImage('Feels like:' + str("{0:.0f}".format(current_weather['feels_like'])), small_font) img.paste(feels_img, (location_img.size[0] + 10, 0)) min_img = self.textImage( "{0:.0f}".format(current_weather['min_temp']), small_font, r=0, g=0, b=255) img.paste(min_img, (66, 12)) max_img = self.textImage( "{0:.0f}".format(current_weather['max_temp']), small_font, r=255, g=0, b=0) img.paste(max_img, (66, 21)) hum_img = Image.open(weather_dir + '/humidity.png') img.paste(hum_img, ( 82, 8)) htext_img = self.textImage(str(current_weather['humidity']) + '%', small_font) img.paste(htext_img, (95, 10)) uv_img = Image.open(weather_dir + '/uv.png') img.paste(uv_img, ( 82, 22)) utext_img = self.textImage(str(current_weather['uv']) , small_font) img.paste(utext_img, (95, 23)) 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, small_font) img.paste(date_img, (132, 0)) rain_img = Image.open(weather_dir + '/rain-chance.png') img.paste(rain_img, (118,8)) rtext_img = self.textImage(str(int(current_weather['rain_chance']*100)) + '%', small_font) img.paste(rtext_img, (131, 10)) cloud_img = Image.open(weather_dir + '/clouds.png') img.paste(cloud_img, (118,20)) ctext_img = self.textImage(str(current_weather['clouds']) + '%', small_font) img.paste(ctext_img, (131, 22)) wind_img = Image.open(weather_dir + '/wind.png') img.paste(wind_img, (154,8)) wtext_img = self.textImage("{0:.0f}".format(current_weather['wind_speed']) + 'm/s', small_font) img.paste(wtext_img, (168, 10)) wdir_img = self.textImage(self.degreesToCompass(current_weather['wind_direction']), small_font) img.paste(wdir_img, (183, 10)) vis_img = Image.open(weather_dir + '/visibility.png') img.paste(vis_img, (154,20)) vtext_img = self.textImage(str(current_weather['visibility']/1000) + 'km', small_font) img.paste(vtext_img, (168, 22)) return img 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('weather.ppm') return img0, img1 def getDailyWeatherImage(self): f = open( "csv/weather_location.txt", 'r' ) location = f.read() f.close() img = Image.new('RGB', (1000, 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) uv_img = Image.open(weather_dir + '/uv.png') utext_img = self.textImage(str(current_weather['uv']) , 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') wtext_img = self.textImage("{0:.0f}".format(current_weather['wind_speed']) + 'm/s', small_font) wdir_img = self.textImage(self.degreesToCompass(current_weather['wind_direction']), small_font) vis_img = Image.open(weather_dir + '/visibility.png') vtext_img = self.textImage(str(current_weather['visibility']/1000) + 'km', 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, (90,0)) img.paste(rtext_img, (103, 1)) img.paste(hum_img, (117, 0)) img.paste(htext_img, (128, 1)) img.paste(uv_img, ( 143, 0)) img.paste(utext_img, (156, 1)) img.paste(cloud_img, (169,0)) img.paste(ctext_img, (182, 1)) img.paste(wind_img, (205,0)) img.paste(wtext_img, (218, 1)) img.paste(wdir_img, (231, 1)) img.paste(vis_img, (243,0)) img.paste(vtext_img, (256, 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)) daily_weather = json.load(open('csv/daily_weather.json', 'r')) #img.paste(date_img, (70, 0)) x_offset = 70 for i in range(1,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 += 40 img1 = img.crop((0,0,x_offset ,32)) return img1 #Retrieve symbols and stock info from the csv file def readCSV(self): self.symbols = [] self.stock_info = {} f = open('csv/tickers.csv', 'r') CSV = csv.reader(f) next(CSV) for row in CSV: try: symbol, current_price, opening_price = row self.symbols.append(symbol) self.stock_info[symbol] = [current_price, opening_price] except: pass # we dont want to include incomplete information f.close() self.coins = [] self.coin_info = {} f = open('csv/crypto.csv', 'r') CSV = csv.reader(f) next(CSV) for row in CSV: try: symbol, coin, base, current_price, day_change = row self.coins.append(coin) self.coin_info[coin] = [symbol, base, current_price, day_change] except: pass f.close() def displayDailyWeatherAlt(self): img0, img1 = self.getDailyWeatherImageAlt() #img = stock_ticker.getTodayWeatherImage() 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 displayStocks(self): self.scrollImageTransition(['final.ppm', 'final.ppm'], offset_x = 0, offset_y = 0) def process_msg(self, msg): if msg == 'S': # stocks self.getFullStockImage(1) self.displayStocks() elif msg == 'N': #news self.displayNews() # speed settings elif msg == 's': self.delay = 0.03 elif msg == 'm': self.delay = 0.01 elif msg == 'f': self.delay = 0.005 elif msg in ['0', '1', '2', '3', '4', '5', '6', '7', '8', '9']: # birghtness ettings self.brightness = min(1.0, float(msg)/10 + 0.1) elif msg == 'T':# text self.displayUserText() elif msg == 'I': # image image = self.openImage(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'display_image')) #self.setImage( image) while True: kill = self.scrollImage(image, offset_x = 128) if kill: break elif msg == 'G': # gif gif = Image.open(os.path.join(os.path.dirname(os.path.abspath(__file__)), 'display_gif')) #self.displayGIF(gif) while True: kill = self.scrollGIF(gif, offset_x = 128) if kill: break elif msg == 'W': # weather img = stock_ticker.getTodayWeatherImage() img.save('weather.ppm') self.scrollImageTransition(['weather.ppm', 'weather.ppm'], stocks = False) elif msg == 'D': # daily weather #self.displayDailyWeatherAlt() img = self.getDailyWeatherImage() img.save('weather.ppm') #self.setImage( image) self.scrollImageTransition(['weather.ppm', 'weather.ppm'], stocks = False) elif msg == 'L': # league img = self.getLeagueImage() img.save('league.ppm') stock_ticker.scrollImageTransition(['league.ppm', 'league.ppm'], stocks = False) elif msg == 't': #teams img = self.getTeamsImage() img.save('teams.ppm') stock_ticker.scrollImageTransition(['teams.ppm', 'teams.ppm'], stocks = False) elif msg == 'K': # kill self.resetMatrix() if __name__ == '__main__': with open('log.txt', "w") as log: try: stock_ticker = StockTicker() #img = stock_ticker.getLeagueImage() #img.save('league.ppm') #stock_ticker.scrollImageTransition(['league.ppm', 'league.ppm'], stocks = False) #img0, img1 = stock_ticker.getDailyWeatherImage() #img = stock_ticker.getTodayWeatherImage() #img.save('weather.ppm') #stock_ticker.process_msg('S') #stock_ticker.process_msg('W') #stock_ticker.displayDailyWeather() #stock_ticker.delay = 10 #stock_ticker.scrollImageTransition(['weather.ppm', 'weather.ppm'], stocks = False) #stock_ticker.process_msg('G') #stock_ticker.scrollImageTransition([os.path.join(os.path.dirname(os.path.abspath(__file__)), 'display_image'), os.path.join(os.path.dirname(os.path.abspath(__file__)), 'display_image')], stocks = False) #stock_ticker.readCSV() #stock_ticker.displayUserText() # #stock_ticker.displayNews() #stock_ticker.displayGIF('/home/pi/Desktop/stock_ticker/gifs/open.gif') #stock_ticker.displayGIF('/home/pi/Desktop/stock_ticker/gifs/close.gif') #stock_ticker.process_msg(brightness) #stock_ticker.process_msg(speed) #stock_ticker.displayText() #stock_ticker.getFullStockImage(1) #stock_ticker.process_msg('f') #stock_ticker.displayStocks() #stock_ticker.displayStocks() #stock_ticker.delay = 0.001 #stock_ticker.scrollImageTransition(['final.ppm', 'final.ppm'], offset_x = 0, offset_y = 0) while True: msg = getInput() stock_ticker.process_msg(msg) except Exception as e: exc_type, exc_obj, exc_tb = sys.exc_info() fname = os.path.split(exc_tb.tb_frame.f_code.co_filename)[1] log.write(str(e)) log.write('. file: ' + fname) log.write('. line: ' + str(exc_tb.tb_lineno)) log.write('. type: ' + str(exc_type)) log.write('\n ' + "".join(traceback.format_exception(sys.exc_info()[0], sys.exc_info()[1], sys.exc_info()[2]))) raise(e)