def main(): # Options declaration. parser = OptionParser() (options,args) = parser.parse_args(sys.argv); if len(args) == 2: thing = open(args[1]) elif len(args) == 1: thing = sys.stdin else: parser.print_help() sys.exit(2) # Print happy things if there's a user on the other side! tty = thing.isatty() if tty: print("* CS 609 Project") print("* Fall 2011") print("* Jason Bowman, Paul Kilgo, Houston Searcy") print("------------------------------------------") print("Type a schedule at the prompt. If it is\n", "well-formed, the analysis will be\n", "printed below. This script accepts a\n", "syntax similar to the one used in class.\n", "EXAMPLE: R1(X) W2(X) W1(X) C1 C2\n\n", "CTRL-D to Exit.") print("------------------------------------------") prompt(tty) for line in thing: try: ## Chomp off any comments. orig = line.strip() line = re.split('#+',line)[0]; if line.strip() == "": if not tty: print(orig) prompt(tty) continue line = line.strip() sched = schedule(line) if not tty: print(orig) sched.printAnalysis() except OpFormatError as e: print(line + ": '" + e.expr + "': " + e.msg) prompt(tty)
def __init__(self, pref_file=None, schedule_file=None, runhistory_file=None, activitydata_file=None, tempdata_file=None, update_frequency=60.0, downbuttons=["F11"], upbuttons=["F12"]): self.updatelock = threading.Condition() self.thread = None self.update = False self.state_dirty = False self.next_check_time = time.time() self.period = update_frequency self.enabled = 0 self.pid = PID(1.0, 0.0, 0.0, setpoint=70, output_limits=(0.0, 1.0)) self.schedule = schedule(save_file=schedule_file) self.activity_tracker = dataTracker(1, save_file=activitydata_file, autosave_frequency=10 * 60, age_limit=24 * 60 * 60) self.pref_file = pref_file self.loadPrefs() self.sensor = tempSensor(tempdata_file) (temp, humidity) = self.sensor.read() self.display = displayControl() if self.display != None: self.display.updateDisplay(temp, self.pid.setpoint, 0.0) self.downbuttons = [ buttonHandler(b, self.decreaseTemp) for b in downbuttons ] if downbuttons else [] self.upbuttons = [ buttonHandler(b, self.increaseTemp) for b in upbuttons ] if upbuttons else [] self.control = heaterControl(save_file=runhistory_file, display=self.display) self.to_delete = False self.thread = threading.Thread(target=self.thermostatThread) self.thread.daemon = True self.thread.start()
async def new_schedule( root_channel, time, root_user): #time = datetime.datetime, root_user = 밑에 root_user print("팟 추가 함수 접근") global schedules new = schedule.schedule() new.set_when(time) #시간 new.set_who(user_custom.user(root_user.name, root_user.id)) #팟 만든 사람 print(new.participant) #본인확인 def check(message): return root_user == message.author # 게임이름 받기 try: question = discord.Embed(title="같이 할 게임을 알려주세요!\n") question.set_footer(text="'게임이름'만 알려주세요!") notice1 = await root_channel.send(embed=question) message = await client.wait_for('message', timeout=25.0, check=check) # 20 except asyncio.TimeoutError: notice2 = await root_channel.send("시간 초과로 취소되었습니다.") await asyncio.sleep(25) # 300 await notice1.delete() await notice2.delete() else: await message.delete() await notice1.delete() new.set_what(message.content) # 팟 올리기! embed = make_pot_embed(new) msg = await message.channel.send(embed=embed) await msg.add_reaction("👍") #step # print(message.author.id) # print(root_user.id) # print(root_user.name) schedules.append([msg, new, message.author.id]) print("스케쥴 추가됨, ", schedules)
def QueryFree(): semester = request.args.get('semester', None) avoid = request.args.get('avoid', '') room = request.args.get('room', '') campus = request.args.get('campus', '') weekday = request.args.get('weekday', '') duration = request.args.get('duration', '1') flex = request.args.get('flex', 1) cap = request.args.get('cap', 1) start = time() if not semester: return flask.jsonify({ 'error': 'Semester is missing.', 'duration': "%.2f" % (time()-start) }) try: duration = int(float(duration) * 2) flex = int(flex) cap = int(cap) except: return flask.jsonify(dict(error="Duration/Flex/Cap is invalid.")) answer = schedule.schedule(dbname = dbname, semester = semester, avoid = avoid, room = room, campus = campus, weekday = weekday, count = duration, flex = flex, cap = cap) if len(answer) > 1000: return flask.jsonify( dict(error="Too many solutions: %d found." % len(answer), duration="%.2f" % (time()-start))) return flask.jsonify({ 'total': len(answer), 'data': answer, 'duration': "%.2f" % (time()-start) })
def QueryFree(): semester = request.args.get('semester', None) avoid = request.args.get('avoid', '') room = request.args.get('room', '') campus = request.args.get('campus', '') weekday = request.args.get('weekday', '') duration = request.args.get('duration', '1') flex = request.args.get('flex', 1) cap = request.args.get('cap', 1) start = time() if not semester: return flask.jsonify({ 'error': 'Semester is missing.', 'duration': "%.2f" % (time() - start) }) try: duration = int(float(duration) * 2) flex = int(flex) cap = int(cap) except: return flask.jsonify(dict(error="Duration/Flex/Cap is invalid.")) answer = schedule.schedule(dbname=dbname, semester=semester, avoid=avoid, room=room, campus=campus, weekday=weekday, count=duration, flex=flex, cap=cap) if len(answer) > 1000: return flask.jsonify( dict(error="Too many solutions: %d found." % len(answer), duration="%.2f" % (time() - start))) return flask.jsonify({ 'total': len(answer), 'data': answer, 'duration': "%.2f" % (time() - start) })
def option(message): idG = up.verification(str(message.chat.id)) # получение группы из БД sch = schedule(idGroups[idG]) # парс расписания now_date = datetime.date.today() weekDay = now_date.weekday() dt = time.time() send = '' if message.text == 'На завтра': weekDay += 1 dt += 86400 # +1 день времени в секундах if weekDay == 7: weekDay = 0 send += '{} - {}:\n\n'.format(time.strftime('%d.%m.%Y', time.localtime(dt)), weekDays[weekDay]) for i in sch[weekDay]: send = send + i + '\n' bot.send_message(message.from_user.id, send)
def read_ids_form_df(df, centroids, first_selections, batches, dbh): batches = pd.DataFrame(batches) xxx, n_selc = np.unique(centroids.cluster.values, return_counts=True) limt = (np.cumprod(n_selc))[::-1] indices = np.zeros((len(df), N_CLUSTERS)) ref = df.index.values for i in range(0, N_CLUSTERS): if i != N_CLUSTERS - 1: indices[:, (N_CLUSTERS - 1) - i] = np.trunc(ref / limt[i + 1]) ref = ref - indices[:, N_CLUSTERS - 1 - i] * limt[i + 1] else: indices[:, (N_CLUSTERS - 1) - i] = ref sched_content = [] for sel_ind in indices: print(sel_ind) id_to_db = [] for icl in range(0, N_CLUSTERS): sel_crit = (first_selections.cluster == icl).values & \ (first_selections.label == sel_ind[icl]).values id_to_db.append(first_selections[sel_crit].ids.values) for comb in (list(itertools.product(*id_to_db))): prmry_ks = [item for sublist in list(comb) for item in sublist] nones = [None] * len(prmry_ks) dbh.add_schedule(tuple(zip(prmry_ks, nones))) from schedule import schedule tmp = schedule() import pdb pdb.set_trace() return indices
class TestSchedule(unittest.TestCase): print ("Testing schedule") valid_2018_schedule = schedule(2018) valid_2018_wooster_game = {'month' : 'April', 'day' : '25', 'day_of_week' : 'Wed.', 'verses_or_at' : 'vs', 'opponent_name' : '#2 Wooster', 'neutralsite' : None , 'result' : 'L, 11-6', 'status' : 'Final'} valid_2018_washington_and_jefferson_game = {'month' : 'March', 'day' : '4', 'day_of_week' : 'Sun.', 'verses_or_at' : 'at', 'opponent_name' : '#4 Washington & Jefferson', 'neutralsite' : None , 'result' : 'L, 8-2', 'status' : 'Final'} valid_2018_allegheny_game = {'month' : 'March', 'day' : '4', 'day_of_week' : 'Sun.', 'verses_or_at' : 'vs.', 'opponent_name' : 'Allegheny','neutralsite' : '@ Washington, Pa.' , 'result' : 'W, 4-3', 'status' : 'Final'} def test_no_specified_scheudle_year(self): self.assertEqual(schedule(None).year, datetime.datetime.now().year, "The currrent year not used when no year speecified") def test_invalid_schedule_year(self): with self.assertRaises(CONNECTION_TO_WEBSITE_ERROR): schedule(9999) def test_valid_schedule_year(self): self.assertEqual(team(2015).year, 2015, "The correct year was fetched") def test_fetch_games_by_date_no_games(self): games_for_day = self.__class__.valid_2018_schedule.fetch_games_by_date("March", "2") self.assertEqual(games_for_day, None, "Incorrectly fetched games for date that no games occured") def test_fetch_games_by_date_invalid_month(self): games_for_day = self.__class__.valid_2018_schedule.fetch_games_by_date("blahblahblah", "2") self.assertEqual(games_for_day, None, "Incorrectly fetched games for invalid month date") def test_fetch_games_by_date_invalid_day(self): games_for_day = self.__class__.valid_2018_schedule.fetch_games_by_date("March", "blah") self.assertEqual(games_for_day, None, "Incorrectly fetched games for invalid day date") def test_fetch_games_by_date_single_game(self): games_for_day = self.__class__.valid_2018_schedule.fetch_games_by_date('April', '25') self.assertEqual(len(games_for_day), 1, "Fetched incorrect number of games for date") game = games_for_day[0] self.assertEqual(game.month, self.__class__.valid_2018_wooster_game['month'], "Fetched game month incorrectly") self.assertEqual(game.day, self.__class__.valid_2018_wooster_game['day'], "Fetched game day incorrectly") self.assertEqual(game.day_of_week, self.__class__.valid_2018_wooster_game['day_of_week'], "Fetched game day of week incorrectly") self.assertEqual(game.verses_or_at, self.__class__.valid_2018_wooster_game['verses_or_at'], "Fetched game vs or at incorrectly") self.assertEqual(game.opponent_name, self.__class__.valid_2018_wooster_game['opponent_name'], "Fetched game opponent name incorrectly") self.assertEqual(game.neutral_site, self.__class__.valid_2018_wooster_game['neutralsite'], "Fetched game neutral site incorrectly") self.assertEqual(game.result, self.__class__.valid_2018_wooster_game['result'], "Fetched game result incorrectly") self.assertEqual(game.status, self.__class__.valid_2018_wooster_game['status'], "Fetched game status incorrectly") def test_fetch_games_by_date_multiple_games(self): games_for_day = self.__class__.valid_2018_schedule.fetch_games_by_date('March', '4') self.assertEqual(len(games_for_day), 2, "Fetched incorrect number of games for date") game_one = games_for_day[0] game_two = games_for_day[1] self.assertEqual(game_one.month, self.__class__.valid_2018_washington_and_jefferson_game['month'], "Fetched game month incorrectly") self.assertEqual(game_one.day, self.__class__.valid_2018_washington_and_jefferson_game['day'], "Fetched game day incorrectly") self.assertEqual(game_one.day_of_week, self.__class__.valid_2018_washington_and_jefferson_game['day_of_week'], "Fetched game day of week incorrectly") self.assertEqual(game_one.verses_or_at, self.__class__.valid_2018_washington_and_jefferson_game['verses_or_at'], "Fetched game vs or at incorrectly") self.assertEqual(game_one.opponent_name, self.__class__.valid_2018_washington_and_jefferson_game['opponent_name'], "Fetched game opponent name incorrectly") self.assertEqual(game_one.neutral_site, self.__class__.valid_2018_washington_and_jefferson_game['neutralsite'], "Fetched game neutral site incorrectly") self.assertEqual(game_one.result, self.__class__.valid_2018_washington_and_jefferson_game['result'], "Fetched game result incorrectly") self.assertEqual(game_one.status, self.__class__.valid_2018_washington_and_jefferson_game['status'], "Fetched game status incorrectly") self.assertEqual(game_two.month, self.__class__.valid_2018_allegheny_game['month'], "Fetched game month incorrectly") self.assertEqual(game_two.day, self.__class__.valid_2018_allegheny_game['day'], "Fetched game day incorrectly") self.assertEqual(game_two.day_of_week, self.__class__.valid_2018_allegheny_game['day_of_week'], "Fetched game day of week incorrectly") self.assertEqual(game_two.verses_or_at, self.__class__.valid_2018_allegheny_game['verses_or_at'], "Fetched game vs or at incorrectly") self.assertEqual(game_two.opponent_name, self.__class__.valid_2018_allegheny_game['opponent_name'], "Fetched game opponent name incorrectly") self.assertEqual(game_two.neutral_site, self.__class__.valid_2018_allegheny_game['neutralsite'], "Fetched game neutral site incorrectly") self.assertEqual(game_two.result, self.__class__.valid_2018_allegheny_game['result'], "Fetched game result incorrectly") self.assertEqual(game_two.status, self.__class__.valid_2018_allegheny_game['status'], "Fetched game status incorrectly")
from flask import Flask, request, render_template, redirect, session from datetime import date import subprocess from functools import wraps from flask import Response from schedule import schedule import settings app = Flask(__name__) schedule() app.secret_key = settings.secret_key @app.route("/", methods=['GET', 'POST']) def index(): if request.method == "POST": if request.form['passkey'] == settings.passkey: session['logged_in'] = True return redirect("/welcome/") else: session['logged_in'] = False return render_template("%s.html" % "index") @app.route("/welcome/", methods=['GET']) def welcome(): if session['logged_in']: if 'logout' in request.args.keys(): session.clear() return redirect("/") with open(settings.database, encoding='utf8') as f:
def initUI(self): # 背景颜色 col = QColor("black") self.setStyleSheet("QWidget { background-color: %s }" % col.name()) textCol = QPalette() textCol.setColor(QPalette.WindowText, Qt.white) #标签-时间 self.label1 = QLabel(self) self.label1.setAlignment(Qt.AlignCenter) self.label1.setText(time.strftime("%I:%M", time.localtime())) self.label1.setPalette(textCol) self.label1.setFont(QFont("Helvetica", 48)) self.label1.move(780, 20) #标签-温度 self.label3 = QLabel(self) self.label3.setAlignment(Qt.AlignCenter) text = wenshidu.wenshi() te = str(text[0]) self.label3.setText('温度:' + te + '℃') self.label3.setPalette(textCol) self.label3.setFont(QFont("Helvetica", 18)) self.label3.move(50, 710) #标签-湿度 self.label4 = QLabel(self) self.label4.setAlignment(Qt.AlignCenter) text = wenshidu.wenshi() te = str(text[1]) self.label4.setText('湿度:' + te + '%') self.label4.setPalette(textCol) self.label4.setFont(QFont("Helvetica", 18)) self.label4.move(860, 710) #标签-城市 self.label6 = QLabel(self) self.label6.setAlignment(Qt.AlignCenter) self.label6.setText('镇江') self.label6.setPalette(textCol) self.label6.setFont(QFont("Helvetica", 48)) self.label6.move(50, 20) #标签-天气 self.label7 = QLabel(self) self.label7.setAlignment(Qt.AlignCenter) text7 = weather.weather() self.label7.setText(text7['type']) self.label7.setPalette(textCol) self.label7.setFont(QFont("Helvetica", 28)) self.label7.move(200, 30) #标签-最高温度 self.label8 = QLabel(self) self.label8.setAlignment(Qt.AlignCenter) text8 = weather.weather() self.label8.setText(text8['high'] + ' ~') self.label8.setPalette(textCol) self.label8.setFont(QFont("Helvetica", 18)) self.label8.move(50, 100) #标签-最低温度 self.label9 = QLabel(self) self.label9.setAlignment(Qt.AlignCenter) text9 = weather.weather() self.label9.setText(text9['low']) self.label9.setPalette(textCol) self.label9.setFont(QFont("Helvetica", 18)) self.label9.move(200, 100) #标签-当天日期 self.label10 = QLabel(self) self.label10.setAlignment(Qt.AlignCenter) text10 = str(datetime.date.today()) self.label10.setText(text10) self.label10.setPalette(textCol) self.label10.setFont(QFont("Helvetica", 18)) self.label10.move(825, 100) #标签-星期数 self.label11 = QLabel(self) self.label11.setAlignment(Qt.AlignCenter) dayOfWeek = str(time.strftime("%A", time.localtime())) self.label11.setText(dayOfWeek) self.label11.setPalette(textCol) self.label11.setFont(QFont("Helvetica", 16)) self.label11.move(900, 140) #标签Title-NEWS self.news_tt = QLabel(self) self.news_tt.setText('News') self.news_tt.setPalette(textCol) self.news_tt.setFont(QFont("Helvetica", 28)) self.news_tt.move(50, 600) #标签-新闻爬虫 self.newsCont = QLabel(self) new = "新闻爬虫_新闻爬虫_新闻爬虫_新闻爬虫_新闻爬虫_新闻爬虫_新闻爬虫_新闻爬虫_" self.newsCont.setText(new) self.newsCont.setPalette(textCol) self.newsCont.setFont(QFont("Helvetica", 18)) self.newsCont.setGeometry(50, 650, 900, 30) self.newsCont.move(50, 650) #标签-Event #标签Title-Event self.memo = QLabel(self) self.memo.setText('备忘录') self.memo.setPalette(textCol) self.memo.setFont(QFont("Helvetica", 28)) self.memo.move(50, 220) #memodata data_memo = ["title", "备忘录", "备忘录__备忘录__备忘录__备忘录__备忘录__备忘录__"] #memo-content self.memoCont = QLabel(self) self.memoCont.setText(data_memo[1] + ":" + data_memo[2]) self.memoCont.setPalette(textCol) self.memoCont.setFont(QFont("Helvetica", 18)) self.memoCont.move(50, 300) #标签-烟雾 self.label15 = QLabel(self) #yan=smoke.smoke() yan = "dangerous" self.label15.setText('烟雾:' + yan) self.label15.setPalette(textCol) self.label15.setFont(QFont("Helvetica", 18)) self.label15.move(460, 710) #标签Title-Schedule self.sch_tt = QLabel(self) self.sch_tt.setText('课程表') self.sch_tt.setPalette(textCol) self.sch_tt.setFont(QFont("Helvetica", 28)) self.sch_tt.move(820, 220) #scheduledata data_sch = schedule.schedule() #schedule-first第一节 self.sch1 = QLabel(self) self.sch1.setText('第一节: ' + data_sch[0]) self.sch1.setPalette(textCol) self.sch1.setFont(QFont("Helvetica", 18)) self.sch1.move(720, 300) #schedule-second self.sch2 = QLabel(self) self.sch2.setText('第二节: ' + data_sch[1]) self.sch2.setPalette(textCol) self.sch2.setFont(QFont("Helvetica", 18)) self.sch2.move(720, 340) #schedule-third self.sch3 = QLabel(self) self.sch3.setText('第三节: ' + data_sch[2]) self.sch3.setPalette(textCol) self.sch3.setFont(QFont("Helvetica", 18)) self.sch3.move(720, 380) #schedule-fourth self.sch4 = QLabel(self) self.sch4.setText('第四节: ' + data_sch[3]) self.sch4.setPalette(textCol) self.sch4.setFont(QFont("Helvetica", 18)) self.sch4.move(720, 420) #schedule-fifth self.sch5 = QLabel(self) self.sch5.setText('第五节: ' + data_sch[4]) self.sch5.setPalette(textCol) self.sch5.setFont(QFont("Helvetica", 18)) self.sch5.move(720, 460) #新建一个QTimer对象 self.timer = QTimer() self.timer.setInterval(1000) self.timer.start() # 信号连接到槽 self.timer.timeout.connect(self.onTimerOut) #绝对定位 self.setGeometry(0, 0, 1024, 768) self.setWindowTitle('绝对定位') self.show()
def test_no_specified_scheudle_year(self): self.assertEqual(schedule(None).year, datetime.datetime.now().year, "The currrent year not used when no year speecified")
df_reorder.to_csv('/var/www/html/model/data/orderedresults.csv', index=False) def truncate(f, n): '''Truncates/pads a float f to n decimal places without rounding''' s = '{}'.format(f) if 'e' in s or 'E' in s: return '{0:.{1}f}'.format(f, n) i, p, d = s.partition('.') return '.'.join([i, (d + '0' * n)[:n]]) main_page() print("hi") data = schedule() mapTerms(team_datas) print("Data:", data) for team in team_datas: print(team['school']) print("-" * 40) results = comparison(data) print('Results: ', results) release(results) reorder() # fourFactor() # print team_fours # with open('kenpom.csv', 'w') as output_file: # dict_writer = csv.DictWriter(output_file, team_datas[0].keys())
found = True if found == True: cursor = gconn.execute('SELECT weather from weather ORDER BY datetime DESC LIMIT 1') for row in cursor: weatherstring = row[0] else: weatherstring = 'Weather information is currently unavailable.' gconn.close() return weatherstring if scheduleEnabled == True: from schedule import schedule guischedule = schedule() def getSched(): # Get the active schedule, if any gconn = sqlite3.connect("status.db",10) found = False # daemon status.db schedule, not the schedule class db cursor = gconn.execute("SELECT COUNT(datetime) FROM schedule") schedulename = '' scheduleactive = 0 for row in cursor: if row[0] > 0: found = True if found == True: cursor = gconn.execute('SELECT name, active FROM schedule ORDER BY datetime DESC LIMIT 1')
if found == True: cursor = conn.execute('SELECT weather from weather ORDER BY datetime DESC LIMIT 1') for row in cursor: weatherstring = row[0] else: weatherstring = 'Weather information is currently unavailable.' conn.close() return weatherstring # Schedule display functions if scheduleEnabled == True: from schedule import schedule webschedule = schedule() schedulename = '' def _getSched(json=False): global schedulename # Get the active schedule, if any gconn = sqlite3.connect("status.db",10) found = False # daemon status.db schedule, not the schedule class db cursor = gconn.execute("SELECT COUNT(datetime) FROM schedule") # schedulename = '' scheduleactive = 0 for row in cursor: if row[0] > 0: found = True
#!/usr/bin/env python # encoding: utf-8 import sys from parser import parse from serializer import serialize from schedule import schedule if len(sys.argv) < 2: sys.exit("did you forget sth.?") inFileName = sys.argv[1] outFileName = sys.argv[2] state = parse(inFileName) commands = schedule(state) serialize(outFileName, commands)
def run_mafft_batch(input_files): return list(schedule.schedule(run_mafft, input_files, N_PROCESSES))
def initUI(self): # 背景颜色 col = QColor("black") self.setStyleSheet("QWidget { background-color: %s }" % col.name()) textCol = QPalette() textCol.setColor(QPalette.WindowText, Qt.white) #天气模块 #标签-城市 self.city = QLabel(self) self.city.setAlignment(Qt.AlignCenter) self.city.setText('镇江') self.city.setPalette(textCol) self.city.setFont(QFont("Helvetica", 48)) self.city.move(50, 20) #标签-天气 self.wea = QLabel(self) self.wea.setAlignment(Qt.AlignCenter) weaCon = weather.weather() self.wea.setText(weaCon['type']) self.wea.setPalette(textCol) self.wea.setFont(QFont("Helvetica", 28)) self.wea.move(200, 30) #标签-最高温度 self.high = QLabel(self) self.high.setAlignment(Qt.AlignCenter) highCon = weather.weather() self.high.setText(highCon['high'] + ' ~') self.high.setPalette(textCol) self.high.setFont(QFont("Helvetica", 18)) self.high.move(50, 100) #标签-最低温度 self.low = QLabel(self) self.low.setAlignment(Qt.AlignCenter) lowCon = weather.weather() self.low.setText(lowCon['low']) self.low.setPalette(textCol) self.low.setFont(QFont("Helvetica", 18)) self.low.move(200, 100) #时间模块 #标签-时间 self.time = QLabel(self) self.time.setAlignment(Qt.AlignCenter) self.time.setText(time.strftime("%I:%M", time.localtime())) self.time.setPalette(textCol) self.time.setFont(QFont("Helvetica", 48)) self.time.move(780, 20) #标签-当天日期 self.date = QLabel(self) self.date.setAlignment(Qt.AlignCenter) dateCon = str(datetime.date.today()) self.date.setText(dateCon) self.date.setPalette(textCol) self.date.setFont(QFont("Helvetica", 18)) self.date.move(825, 100) #标签-星期数 self.week = QLabel(self) self.week.setAlignment(Qt.AlignCenter) dayOfWeek = str(time.strftime("%A", time.localtime())) self.week.setText(dayOfWeek) self.week.setPalette(textCol) self.week.setFont(QFont("Helvetica", 16)) self.week.move(900, 140) #备忘录模块 #标签Title-Memo self.memo = QLabel(self) self.memo.setText('备忘录') self.memo.setPalette(textCol) self.memo.setFont(QFont("Helvetica", 28)) self.memo.move(50, 220) #memodata data_memo = memo.memo() #memo-content self.memoCont = QLabel(self) self.memoCont.setText(data_memo[2]) self.memoCont.setPalette(textCol) self.memoCont.setFont(QFont("Helvetica", 18)) self.memoCont.move(50, 300) #课程表模块 #标签Title-Schedule self.sch_tt = QLabel(self) self.sch_tt.setText('课程表') self.sch_tt.setPalette(textCol) self.sch_tt.setFont(QFont("Helvetica", 28)) self.sch_tt.move(820, 220) #scheduledata data_sch = schedule.schedule() #schedule-first第一节 self.sch1 = QLabel(self) self.sch1.setText('第一节: ' + data_sch[0]) self.sch1.setPalette(textCol) self.sch1.setFont(QFont("Helvetica", 18)) self.sch1.move(720, 300) #schedule-second self.sch2 = QLabel(self) self.sch2.setText('第二节: ' + data_sch[1]) self.sch2.setPalette(textCol) self.sch2.setFont(QFont("Helvetica", 18)) self.sch2.move(720, 340) #schedule-third self.sch3 = QLabel(self) self.sch3.setText('第三节: ' + data_sch[2]) self.sch3.setPalette(textCol) self.sch3.setFont(QFont("Helvetica", 18)) self.sch3.move(720, 380) #schedule-fourth self.sch4 = QLabel(self) str4 = data_sch[3] self.sch4.setText('第四节: ' + data_sch[3]) self.sch4.setPalette(textCol) self.sch4.setFont(QFont("Helvetica", 18)) self.sch4.move(720, 420) #schedule-fifth self.sch5 = QLabel(self) str5 = data_sch[4] self.sch5.setText('第五节: ' + data_sch[4]) self.sch5.setPalette(textCol) self.sch5.setFont(QFont("Helvetica", 18)) self.sch5.move(720, 460) #新闻模块 #标签Title-NEWS self.news_tt = QLabel(self) self.news_tt.setText('News') self.news_tt.setPalette(textCol) self.news_tt.setFont(QFont("Helvetica", 28)) self.news_tt.move(50, 600) #标签-新闻爬虫 self.newsCont = QLabel(self) new = news.new() self.newsCont.setText(new) self.newsCont.setPalette(textCol) self.newsCont.setFont(QFont("Helvetica", 18)) self.newsCont.setGeometry(50, 650, 900, 30) self.newsCont.move(50, 650) #传感器模块 #标签-温度 self.wen = QLabel(self) self.wen.setAlignment(Qt.AlignCenter) wenCon = wenshidu.wenshi() self.wen.setText('温度:' + str(wenCon[0]) + '℃') self.wen.setPalette(textCol) self.wen.setFont(QFont("Helvetica", 18)) self.wen.move(50, 710) #标签-湿度 self.shi = QLabel(self) self.shi.setAlignment(Qt.AlignCenter) shiCon = wenshidu.wenshi() self.shi.setText('湿度:' + str(shiCon[1]) + '%') self.shi.setPalette(textCol) self.shi.setFont(QFont("Helvetica", 18)) self.shi.move(860, 710) #标签-烟雾 self.smoke = QLabel(self) yan = smoke.smoke() self.smoke.setText('烟雾:' + yan) self.smoke.setPalette(textCol) self.smoke.setFont(QFont("Helvetica", 18)) self.smoke.move(460, 710) #新建一个QTimer对象 self.timer = QTimer() self.timer.setInterval(1000) self.timer.start() # 信号连接到槽 self.timer.timeout.connect(self.onTimerOut) #绝对定位 self.setGeometry(0, 0, 1024, 768) self.setWindowTitle('绝对定位') self.show()
os.setsid() try: pid = os.fork() if pid > 0: sys.exit(0) except OSError, e: print "daemonize fork#2 failed: (%d) %s\n" % (e.errno, e.strerror) sys.exit(1) if __name__ == "__main__": pid_file = "./schedule.pid" if len(sys.argv) != 2: print sys.argv[0] + " [start|stop]" sys.exit(1) op = sys.argv[1] pid = get_pid(pid_file) if op == "start": if pid: print "schedule already exists" else: daemonize() schedule(pid_file) elif op == "stop": if not pid: print "schedule does not exist" else: os.kill(int(pid), signal.SIGTERM) else: print sys.argv[0] + " [start|stop]"
#left powerhead stuff if self.leftPowerheadScheduleCurrent.getCurrentState( [currentTime[3], currentTime[4]]): self.leftPowerhead.On() self.lefPowerheadCurrent = True else: self.leftPowerhead.Off() self.lefPowerheadCurrent = False #right powerhead stuff if self.rightPowerheadScheduleCurrent.getCurrentState( [currentTime[3], currentTime[4]]): self.rightPoerhead.On() self.rightPowerheadCurrent = True else: self.rightPoerhead.Off() self.rightPowerheadCurrent = False self.updateGUI() t.sleep(60) # GUI Stuff def updateGUI(self): print(self.leftPowerhead.getStatus(), " ", self.rightPoerhead.getStatus()) phc = powerheadController() rs = schedule.schedule()
from schedule import schedule if __name__ == '__main__': test = schedule() test.run()
start = randomDate("1/9/2016 0:0", "1/11/2016 0:0", random.random()) finish = randomDate(start, "1/11/2016 0:0", random.random()) input_file.write("Job%s\t%s\t%s\n" % (str(i), start, finish)) def randomIntervals(n): createInputFile(n) intervals = [] with open("input.txt", "r") as input_file: next(input_file) for line in input_file: job_id, start, finish = line.rstrip().split("\t") intervals.append( Interval(job_id, getTimeFromStr(start), getTimeFromStr(finish))) return intervals if __name__ == '__main__': n = 10 intervals = randomIntervals(n) scheduled_intervals = schedule(intervals) with open('output.txt', 'w+') as output_file: output_file.write("Job_ID\tStart_Time\tFinish_Time\n") for i in scheduled_intervals: output_file.write( "%s\t%s\t%s\n" % (i.job_id, getStrFromTime( i.start_time), getStrFromTime(i.finish_time)))
def test_scheduleCreationAssembly(self): scheduleA = schedule('Max Mustermann', blockCreator(), "Wendnesday", "Thursday") self.assertEqual(scheduleA.assembly, "Thursday")
}, 'internship': { 'duration': '3-6个月', # 无 'level': '国内知名企业', # 默认 'recommendation': '直属领导推荐', # 默认 }, 'scholarship': { 'level': '校一等奖学金', # 校级一等奖 }, 'activity': { 'duration': '3-6个月', 'type': '国内志愿者', # }, 'competition': { 'level': '', # 默认值 }, } condition = {} #condition = translateFromFrontToBack(orig_condition) grade = '‘大二’' target_level = 1 print str(ttt).decode('utf-8') if ttt['major'] == '法学': print ttt['current-school'] result = schedule(ttt) #输出结果 #print json.dumps(result, ensure_ascii=False, indent=4)
def test_invalid_schedule_year(self): with self.assertRaises(CONNECTION_TO_WEBSITE_ERROR): schedule(9999)
def test_scheduleCreationStudent(self): scheduleA = schedule('Max Mustermann', blockCreator(), "Wendnesday", "Thursday") self.assertEqual(scheduleA.student, "Max Mustermann")
def test_scheduleCreationGradeLevel(self): scheduleA = schedule('Max Mustermann', blockCreator(), "Wendnesday", "Thursday") self.assertEqual(scheduleA.gradeLevel, "Wendnesday")
def run_pasta_batch(input_files, output_base="../result/pasta_output"): mkdir_if_not_exists(output_base) args = list() for f in input_files: args.append((f, os.path.join(output_base, os.path.basename(f)))) return list(schedule.schedule(run_pasta_worker, args, N_PROCESSES))
def main(): schedule.schedule() print("End of Main")