Exemple #1
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def executereminders(bot, _):
    now = datetime.datetime.now()
    users_to_notify = db.get_values("meditationreminders", value=now.hour)
    for user in users_to_notify:
        user_id = user[0]
        user_midnight_utc = user[
            2]  # Will be an int like 2, meaning midnight is at 2AM UTC for the user
        # We don't want to notify if the user already meditated today
        # Because of timezones, 'today' probably means something different for user
        # So we check between their midnight and now
        if user_midnight_utc > now.hour:
            start_check_period = get_x_days_before(now, 1).replace(
                hour=user_midnight_utc, minute=0, second=0)
        else:
            start_check_period = now.replace(hour=user_midnight_utc,
                                             minute=0,
                                             second=0)
        meditations = db.get_values("meditation",
                                    start_date=start_check_period,
                                    end_date=now,
                                    user_id=user_id)
        meditations_len = len(meditations)
        if meditations_len == 0:
            bot.send_message(chat_id=user_id, text="Hey! You asked me to send you a private message to remind you to meditate! 🙏 "\
                                                   "You can turn off these notifications with `/reminders off`. 🕑")
Exemple #2
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def get_standard_deviation(field):
    db.connect_db()

    values = db.get_values(field)

    stddev = statistics.pstdev(values)
    return stddev
Exemple #3
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def find_rating_change(table, user_id, new_value):
    now = datetime.datetime.now()
    yesterday = get_x_days_before(now, 1)
    # We want to find change in rating between current value and most recent value in 24 last hours
    ratings_last_day = db.get_values(table,
                                     start_date=yesterday,
                                     end_date=now,
                                     user_id=user_id)
    difference_str = ""
    if len(ratings_last_day) > 1:
        ratings_last_day.sort(key=lambda r: r[2], reverse=True)
        difference = new_value - ratings_last_day[1][1]
        difference_str = ' ({})'.format(
            "{:+}".format(difference) if difference else "no change")
    return difference_str
Exemple #4
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def generate_timelog_report_from(table,
                                 filename,
                                 user,
                                 start_date,
                                 end_date,
                                 all_data=False):
    user_id = None if all_data else user.id
    username = "******" if all_data else get_name(user)
    results = db.get_values(table,
                            start_date=start_date,
                            end_date=end_date,
                            user_id=user_id)

    dates_to_value_mapping = defaultdict(int)
    for result in results:
        dates_to_value_mapping[result[2].date()] += result[1]

    dates = dates_to_value_mapping.keys()
    values = dates_to_value_mapping.values()
    total = sum(values)

    if table == "meditation":
        units = "minutes"
    elif table == "sleep":
        units = "hours"

    _, axis = plt.subplots()

    x_limits = get_chart_x_limits(start_date, end_date, dates)
    axis.set_xlim(x_limits)
    axis.xaxis_date()

    plt.bar(dates, values, align='center', alpha=0.5)
    plt.ylabel(table.title())

    interval = (x_limits[1] - x_limits[0]).days
    # Try to keep the ticks on the x axis readable by limiting to max of 10
    if interval > 10:
        axis.xaxis.set_major_locator(
            mdates.DayLocator(interval=math.ceil(interval / 10)))
        axis.xaxis.set_minor_locator(mdates.DayLocator())
    else:
        axis.xaxis.set_major_locator(mdates.DayLocator())
    axis.xaxis.set_major_formatter(mdates.DateFormatter('%d/%m'))
    plt.title('{}\'s {} chart\n{} days report. Total: {:.1f} {}'.format(
        username, table, interval, total, units))
    plt.savefig(filename)
    plt.close()
Exemple #5
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def journallookup(bot, update):
    user_id = update.message.from_user.id
    username = get_name(update.message.from_user)
    parts = update.message.text.split(' ')
    datestring = " ".join(parts)

    # Parse the string - prefer DMY to MDY - most of world uses DMY
    dateinfo = dateparser.parse(datestring,
                                settings={
                                    'DATE_ORDER': 'DMY',
                                    'STRICT_PARSING': True
                                })
    if dateinfo is not None:
        dateinfo = dateinfo.date()
        start_of_day = datetime.datetime(dateinfo.year, dateinfo.month,
                                         dateinfo.day)
        end_of_day = start_of_day + datetime.timedelta(days=1)
        entries = db.get_values("journal",
                                start_date=start_of_day,
                                end_date=end_of_day,
                                user_id=user_id)
        entries_len = len(entries)

        try:
            bot.deleteMessage(chat_id=update.message.chat.id,
                              message_id=update.message.message_id)
        except BadRequest:
            pass

        if entries_len == 0:
            bot.send_message(
                chat_id=update.message.chat.id,
                text="📓 {} had no journal entries on {}. 📓".format(
                    username, dateinfo.isoformat()))

        for entry in entries:
            # Separate entry for each message, or we'll hit the telegram length limit for many (or just a few long ones) in one day
            bot.send_message(chat_id=update.message.chat.id,
                             text="📓 Journal entry by {}, dated {}: {}".format(
                                 username,
                                 entry[2].strftime("%a. %d %B %Y %I:%M%p %Z"),
                                 entry[1]))
    else:
        bot.send_message(
            chat_id=update.message.from_user.id,
            text="Sorry, I couldn't understand that date format. 🤔")
Exemple #6
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def generate_linechart_report_from(table, filename, user, start_date,
                                   end_date):
    user_id = user.id
    username = get_name(user)
    results = db.get_values(table,
                            start_date=start_date,
                            end_date=end_date,
                            user_id=user_id)
    results = sorted(results, key=lambda x: x[2])

    ratings = [x[1] for x in results]
    dates = [x[2] for x in results]
    average = float(sum(ratings)) / max(len(ratings), 1)

    _, axis = plt.subplots()

    x_limits = get_chart_x_limits(start_date, end_date,
                                  [x.date() for x in dates])
    axis.set_xlim(x_limits)
    axis.set_ylim([0, 10])

    interval = (x_limits[1] - x_limits[0]).days
    # Try to keep the ticks on the x axis readable by limiting to max of 10
    if interval > 10:
        axis.xaxis.set_major_locator(
            mdates.DayLocator(interval=math.ceil(interval / 10)))
        axis.xaxis.set_minor_locator(mdates.DayLocator())
    else:
        axis.xaxis.set_major_locator(mdates.DayLocator())
    axis.xaxis.set_major_formatter(mdates.DateFormatter('%d/%m'))
    plt.title('{}\'s {} chart\n{} days report. Average: {:.2f}'.format(
        username, table, interval, average))
    plt.ylabel(table.title())

    plt.plot(dates, ratings)
    plt.savefig(filename)
    plt.close()
Exemple #7
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def make_histogram(field, xlabel, min_value, max_value, step_size,
                   step_size_tick):
    db.connect_db()
    values = db.get_values(field)

    data = [
        go.Histogram(x=values,
                     marker=dict(color='#a8a8a8',
                                 line=dict(width=2, color='#000000')),
                     xbins=dict(start=min_value, end=max_value,
                                size=step_size))
    ]

    layout = go.Layout(xaxis=dict(title=xlabel,
                                  tick0=0,
                                  dtick=step_size_tick,
                                  tickfont=dict(size=20),
                                  titlefont=dict(size=20)),
                       yaxis=dict(title='Projekt',
                                  tickfont=dict(size=20),
                                  titlefont=dict(size=20)))

    fig = go.Figure(data=data, layout=layout)
    plotly.offline.plot(fig, filename=('histogram ' + field))