Exemplo n.º 1
0
def counting():
    Var.now = datetime.datetime.now()
    Var.block = int(get_block_var() / 2) + 1 if get_block_var() % 2 != 0 else 0
    label_update()
    if Var.started and Var.block != 0:
        Var.tCycle = int(
            floor(Var.sequence_time - (Var.now - Var.mark).seconds))
        app.setLabel('tCycle', countdown_format(Var.tCycle))
    window = GUIVar.target_window * Var.partsper
    if Var.tCycle != GUIConfig.targetColor and -window <= Var.tCycle <= window:
        app.setLabelBg('tCycle', GUIConfig.targetColor)
    elif Var.tCycle != GUIConfig.andonColor and Var.tCycle < -window:
        app.setLabelBg('tCycle', GUIConfig.andonColor)
    elif Var.tCycle != GUIConfig.appBgColor and Var.tCycle > window:
        app.setLabelBg('tCycle', GUIConfig.appBgColor)
Exemplo n.º 2
0
def press(btn):
    if btn == 'Go':
        for tab in GUIConfig.tabs:
            app.setTabbedFrameDisabledTab('Tabs', tab, disabled=False)
        app.setTabbedFrameSelectedTab('Tabs', 'Main')
        Var.mark = datetime.datetime.now()
        Var.started = True
        recalculate()
    if btn == 'leadUnverifiedButton':
        Var.lead_unverified = 0
        app.setLabel('leadUnverified', Var.lead_unverified)
    if btn == 'Set':
        Var.parts_delivered = int(app.getSpinBox('Parts Delivered'))
        app.setMeter('partsOutMeter', (Var.parts_delivered / Var.demand) * 100,
                     '%s / %s Parts' % (Var.parts_delivered, Var.demand))
Exemplo n.º 3
0
def recalculate():
    Var.available_time = sum(Var.sched.blockSeconds)
    Var.demand = int(app.getEntry('demand'))
    Var.takt = Var.available_time / Var.demand
    Var.tct = get_tct()
    Var.partsper = int(app.getEntry('partsper'))
    Var.sequence_time = Var.tct * Var.partsper
    app.setLabel('Takt', countdown_format(int(Var.takt)))
    app.setLabel('takt2', countdown_format(int(Var.takt)))
    app.setLabel('TCT', countdown_format(get_tct()))
    app.setLabel('Seq', countdown_format(int(Var.sequence_time)))
    app.setMeter('partsOutMeter', (Var.parts_delivered / Var.demand) * 100,
                 '%s / %s Parts' % (Var.parts_delivered, Var.demand))
Exemplo n.º 4
0
def cycle():
    Var.parts_delivered += Var.partsper
    t = Var.tCycle
    Var.last_cycle = Var.sequence_time - t
    Var.times_list.append(Var.last_cycle)
    app.setLabel('avgCycle', int(sum(Var.times_list) / len(Var.times_list)))
    display_cycle_times()
    window = GUIVar.target_window * Var.partsper
    if t > window:
        Var.early += 1
        Var.lead_unverified += 1
    elif t < -window:
        Var.late += 1
        Var.lead_unverified += 1
    else:
        Var.on_time += 1
    Var.tct = get_tct()
    Var.sequence_time = Var.tct * Var.partsper
    app.setLabel('TCT', countdown_format(Var.tct))
    app.setLabel('Seq', countdown_format(Var.sequence_time))
    Var.batting_avg = Var.on_time / sum([Var.on_time, Var.late, Var.early])
    Var.andon = False
    Var.mark = datetime.datetime.now()
    app.setMeter('partsOutMeter', (Var.parts_delivered / Var.demand) * 100,
                 '%s / %s Parts' % (Var.parts_delivered, Var.demand))
Exemplo n.º 5
0
def shift_adjust(btn):
    block_index = int(btn[7:]) - 1
    change_list = Var.sched.available if btn[:5] == 'start' else Var.sched.breaks
    direction = btn[5:7]
    increment = GUIConfig.schedule_increment
    change_list[block_index] += increment if direction == 'UP' else -increment
    app.setLabel(
        'block%s' % str(block_index + 1),
        '%s - %s' % (Var.sched.available[block_index].strftime('%H:%M'),
                     Var.sched.breaks[block_index].strftime('%H:%M')))
    Var.sched.get_sched()
    Var.sched.get_block_seconds()
    Var.sched.get_break_seconds()
    app.setLabel('block%sTotal' % str(block_index + 1),
                 Var.sched.blockSeconds[block_index])
    app.setLabel('start-endTotal',
                 str(sum(Var.sched.blockSeconds)) + ' seconds')
Exemplo n.º 6
0
         app.setOptionBoxChangeFunction(box, read_time_file)
 with app.frame('buttons', row=1, column=0):
     app.addButton('Go', press, row=3, column=0, colspan=2)
     app.disableButton('Go')
     app.addButton('Recalculate',
                   recalculate,
                   row=4,
                   column=0,
                   colspan=2)
     app.addLabel('taktLabel2', 'Takt', row=3, column=2)
     app.addLabel('takt2', 0, row=4, column=2)
 with app.labelFrame('Variables', row=0, column=1, rowspan=2):
     app.setSticky('w')
     app.addLabelEntry('demand', row=0, column=0, colspan=2)
     app.setEntry('demand', 0)
     app.setLabel('demand', 'Demand: ')
     app.addCheckBox('Parts Out', row=3, column=0)
     app.setCheckBoxChangeFunction('Parts Out', enable_parts_out)
     app.addSpinBox('Parts Delivered',
                    list(range(GUIConfig.max_parts_delivered, -1, -1)),
                    row=3,
                    column=1)
     app.setSpinBox('Parts Delivered', 0)
     app.addButton('Set', press, row=3, column=2)
     # app.disableLabel('Parts Delivered')
     app.disableSpinBox('Parts Delivered')
     app.disableButton('Set')
     with app.labelFrame('demandIncrementFrame',
                         row=0,
                         column=2,
                         rowspan=2,
Exemplo n.º 7
0
def label_update():
    app.setLabel('time', Var.now.strftime('%I:%M:%S %p'))
    app.setMeter('timeMeter', (time_elapsed() / Var.available_time) * 100,
                 '%s / %s' % (int(time_elapsed()), Var.available_time))
    app.setLabel('partsAhead', parts_ahead())
    app.setLabel('early', Var.early)
    app.setLabel('late', Var.late)
    app.setLabel('leadUnverified', Var.lead_unverified)
    app.setLabel('battingAVG', '%.3f' % Var.batting_avg)
    app.setLabel('lastCycle', Var.last_cycle)
    if get_block_var() in range(len(Var.sched.sched)):
        app.setLabel('nextBreak',
                     Var.sched.sched[get_block_var()].strftime('%I:%M %p'))
Exemplo n.º 8
0
def read_time_file():
    file = basedir + '/%s/Schedules/%s/%s.ini' % (app.getOptionBox(
        'Area: '), app.getOptionBox('Shift: '), app.getOptionBox('Schedule: '))
    try:
        Var.sched = schedule.Schedule(file)
    except KeyError:
        file = "%s/schedules/%s.ini" % (os.path.dirname(__file__),
                                        app.getOptionBox('Shift: '))
        Var.sched = schedule.Schedule(file)
    sched = Var.sched
    for block in range(1, 9):
        try:
            for label in ['block%s' % block, 'block%sTotal' % block]:
                app.removeLabel(label)
            for button in [
                    'startUP%s' % block,
                    'startDN%s' % block,
                    'endedUP%s' % block,
                    'endedDN%s' % block
            ]:
                app.removeButton(button)
            app.removeLabelFrame('%s Block' % GUIVar.ordinalList[block])
            print('removing block %s labels' % block)
        except:
            print(
                'block %s does not exist. Ignoring command to delete labels.' %
                block)
    app.openLabelFrame('Parameters')
    start = datetime.datetime.time(sched.start).strftime('%H:%M')
    end = datetime.datetime.time(sched.end).strftime('%H:%M')
    # percent = sum(sched.blockSeconds)/schedule.get_seconds(sched.start, sched.end)
    app.setLabel('start-end', '%s - %s' % (start, end))
    app.setLabel('start-endTotal', str(sum(sched.blockSeconds)) + ' seconds')
    # app.setLabel('start-endPercent', ('%.2f%s of total time\n   spent in flow' % (percent, '%'))[2:])
    for block in range(1, len(sched.available) + 1):
        with app.labelFrame('%s Block' % GUIVar.ordinalList[block],
                            row=1,
                            column=block - 1):
            app.setSticky('new')
            app.setLabelFrameAnchor('%s Block' % GUIVar.ordinalList[block],
                                    'n')
            start = datetime.datetime.time(sched.available[block - 1])
            end = datetime.datetime.time(sched.breaks[block - 1])
            block_time = sched.blockSeconds[block - 1]
            # percent = block_time/sum(sched.blockSeconds)
            buttons = {
                'startUP%s' % block: [shift_adjust, 0, 0],
                'startDN%s' % block: [shift_adjust, 1, 0],
                'endedUP%s' % block: [shift_adjust, 0, 2],
                'endedDN%s' % block: [shift_adjust, 1, 2],
            }
            d = {
                'block%s' % block: [
                    '%s - %s' %
                    (start.strftime('%H:%M'), end.strftime('%H:%M')), 0, 1, 2
                ],
                'block%sTotal' % block: ['%s Seconds' % block_time, 2, 1, 0],
                # 'block%sPercent' % block:  [('%.2f' % percent)[2:] + '% of available time', 2, 0]
            }
            for label in d:
                app.addLabel(title=label,
                             text=d[label][0],
                             row=d[label][1],
                             column=d[label][2],
                             rowspan=d[label][3])
            for button in buttons:
                app.addButton(title=button,
                              func=buttons[button][0],
                              row=buttons[button][1],
                              column=buttons[button][2])
                app.setButton(button, '+' if button[5:7] == 'UP' else '-')

    app.stopLabelFrame()
    Var.mark = datetime.datetime.now()