def get_widget_from_ranking(ranking): assert isinstance(ranking, RankingItem) qual = ranking.qual.name qual_checkbox = QCheckBox(ranking.qual.get_title()) qual_checkbox.setFixedWidth(50) qual_checkbox.setObjectName(qual + '_checkbox') type_combo = AdvComboBox() type_combo.addItems([_('Rank'), _('Max place'), _('Result time')]) type_combo.setFixedWidth(150) type_combo.setObjectName(qual + '_combo') max_place = QSpinBox() max_place.setValue(0) max_place.setFixedWidth(70) max_place.setObjectName(qual + '_place') max_time = QTimeEdit() max_time.setFixedWidth(70) max_time.setDisplayFormat("hh:mm:ss") max_time.setObjectName(qual + '_time') def select_type(): text = type_combo.currentText() max_place.setVisible(text == _('Max place')) max_time.setVisible(text == _('Result time')) def set_enabled(): flag = qual_checkbox.isChecked() type_combo.setEnabled(flag) max_place.setEnabled(flag) max_time.setEnabled(flag) type_combo.currentIndexChanged.connect(select_type) qual_checkbox.stateChanged.connect(set_enabled) if ranking.use_scores: type_combo.setCurrentText(_('Rank')) elif ranking.max_place: type_combo.setCurrentText(_('Max place')) max_place.setValue(ranking.max_place) else: type_combo.setCurrentText(_('Result time')) max_time.setTime(time_to_qtime(ranking.max_time)) qual_checkbox.setChecked(ranking.is_active) select_type() set_enabled() layout = QHBoxLayout() layout.addWidget(qual_checkbox) layout.addWidget(type_combo) layout.addWidget(max_place) layout.addWidget(max_time) return layout
class Clock_widget(QMainWindow): def __init__(self, frameless=False, web=False, debug=0): super(Clock_widget, self).__init__() self.debug = debug self.frameless = frameless self.web = web self.analog = None self.bedtime = QTime(20, 15, 00) self.bedtime_grace_period = 10 self.LEDBall_state = 0 self.temp_update_interval = 10 self.n_updates = 0 self.temp_data = ['i', 0, 0, 0, 'o', 0, 0, 0, 'c', 0, 0] self.LCD_brightness = 150 self.resize(800, 460) self.setupUi(self) self.timer = QTimer(self) self.timer.timeout.connect(self.update) self.timer.start(1000) def setupUi(self, parent): """Setup the interfaces for the clock.""" if not self.objectName(): self.setObjectName(u"Clock") sizePolicy = QSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed) sizePolicy.setHorizontalStretch(0) sizePolicy.setVerticalStretch(0) sizePolicy.setHeightForWidth(parent.sizePolicy().hasHeightForWidth()) parent.setSizePolicy(sizePolicy) parent.setAutoFillBackground(True) parent.setWindowFlag(Qt.Widget, True) if os.uname().sysname == "Linux" or self.frameless: parent.setWindowFlag(Qt.FramelessWindowHint, True) self.tabWidget = QTabWidget(parent) self.tabWidget.setObjectName(u"tabWidget") self.tabWidget.setGeometry(QRect(0, 0, 800, 460)) # This works for Mac, but seems to not work with Linux/Arm/RPi # tabbar = self.tabWidget.tabBar() # tabbar.setMinimumSize(50, 24) # tabfont = QFont() # tabfont.setBold(True) # tabfont.setItalic(True) # tabfont.setPointSize(32) # tabbar.setFont(tabfont) # Setup the TABS self.clock = QWidget() self.clock.setObjectName(u"clock") self.tabWidget.addTab(self.clock, "") self.tabWidget.setTabText(self.tabWidget.indexOf(self.clock), "Clock") self.weather = QWeather(parent=None, debug=self.debug) self.tabWidget.addTab(self.weather, "") self.tabWidget.setTabText(self.tabWidget.indexOf(self.weather), "Weather") self.settings = QWidget() self.settings.setObjectName(u"settings") self.tabWidget.addTab(self.settings, "") self.tabWidget.setTabText(self.tabWidget.indexOf(self.settings), "Settings") self.tabWidget.setCurrentIndex(0) ################################################################################################# # Setup Clock Page ################################################################################################# self.analog = AnalogClock(self.clock) # DIGITAL clock in "clock" tab self.Digital = QLabel(self.clock) self.Digital.setObjectName(u"Digital") self.Digital.setGeometry(QRect(0, 5, 765, 71)) self.Digital.setAutoFillBackground(False) self.Digital.setStyleSheet(u"") self.Digital.setText(u"Current Time - Date + time") # Weather Icon self.weathericon = QWeatherIcon((480, 5), self.weather, parent=self.clock) self.weather.weather_updated.connect(self.weathericon.update) # Weather info on the Clock page. self.minipanel = QTempMiniPanel((475, 105), self.weather, parent=self.clock) self.weather.temp_updated.connect(self.minipanel.update) self.hilo = QHiLoTide((580, 5), parent=self.clock, debug=self.debug) # Moon phase self.moon = QMoon(pos=(450, 210), parent=self.clock, size=216, web=self.web) # Push buttons in "clock tab. push_button_width = 111 push_button_height = 40 push_button_x = 670 push_button_y = 220 self.ledball_off = QPushButton(self.clock) self.ledball_off.setObjectName(u"ledball_off") self.ledball_off.setText(u"LED off") self.ledball_off.setGeometry(QRect(push_button_x, push_button_y, push_button_width, push_button_height)) self.ledball_on = QPushButton(self.clock) self.ledball_on.setObjectName(u"ledball_on") self.ledball_on.setText(u"LED on ") self.ledball_on.setGeometry(QRect(push_button_x, push_button_y+push_button_height, push_button_width, push_button_height)) self.ledball_on2 = QPushButton(self.clock) self.ledball_on2.setObjectName(u"ledball_on2") self.ledball_on2.setText(u"LED on 2") self.ledball_on2.setGeometry(QRect(push_button_x, push_button_y+push_button_height*2, push_button_width, push_button_height)) self.sleep = QPushButton(self.clock) self.sleep.setObjectName(u"sleep") self.sleep.setText(u"Sleep") self.sleep.setGeometry(QRect(push_button_x, push_button_y+push_button_height*3+10, push_button_width, push_button_height)) ################################################################################################# # Setup Weather Page ################################################################################################# ################################################################################################# # Setup Setting Page ################################################################################################# self.timeEdit = QTimeEdit(self.settings) self.timeEdit.setObjectName(u"timeEdit") self.timeEdit.setDisplayFormat(u"h:mm AP") self.timeEdit.setGeometry(QRect(200, 30, 191, 41)) font8 = QFont() font8.setFamily(u"Gill Sans") font8.setPointSize(16) font8.setBold(False) font8.setItalic(False) font8.setWeight(50) self.timeEdit.setFont(font8) self.timeEdit.setAutoFillBackground(True) self.timeEdit.setTime(self.bedtime) self.bedtime_label = QLabel(self.settings) self.bedtime_label.setObjectName(u"bedtime_label") self.bedtime_label.setText(u"Set Bedtime:") self.bedtime_label.setGeometry(QRect(200, 0, 151, 31)) self.bedtime_label.setFont(font8) self.bedtime_label.setAutoFillBackground(True) self.Brightness_Value = QLCDNumber(self.settings) self.Brightness_Value.setObjectName(u"Brightness_Value") self.Brightness_Value.setGeometry(QRect(20, 120, 61, 31)) self.Brightness_Value.setStyleSheet(u"color: \"White\";\n" "margin:0px;\n" "border:0px;background:\"transparent\";") self.Brightness_Value.setDigitCount(3) self.Brightness_Value.setProperty("value", 180.000000000000000) self.Brightness = QSlider(self.settings) self.Brightness.setObjectName(u"Brightness") self.Brightness.setGeometry(QRect(30, 160, 51, 261)) self.Brightness.setAutoFillBackground(False) self.Brightness.setMaximum(255) self.Brightness.setValue(self.LCD_brightness) self.Brightness.setOrientation(Qt.Vertical) self.Brightness_label = QLabel(self.settings) self.Brightness_label.setObjectName(u"Brightness_label") self.Brightness_label.setText(u"Brightness") self.Brightness_label.setGeometry(QRect(20, 70, 101, 41)) font10 = QFont() font10.setFamily(u"Arial Black") font10.setPointSize(12) font10.setBold(True) font10.setWeight(75) self.Brightness_label.setFont(font10) self.temp_test = QLabel(self.settings) self.temp_test.setObjectName(u"temp_test") self.temp_test.setText(u"T20.5 C") self.temp_test.setFont(font8) self.temp_test.setGeometry(QRect(630, 60, 141, 51)) # self.temp_test.setFont(font_bold_20) self.temp_test_slide = QSlider(self.settings) self.temp_test_slide.setObjectName(u"temp_test_slide") self.temp_test_slide.setGeometry(QRect(660, 150, 51, 271)) self.temp_test_slide.setAutoFillBackground(False) self.temp_test_slide.setMinimum(-250) self.temp_test_slide.setMaximum(450) self.temp_test_slide.setSingleStep(5) self.temp_test_slide.setPageStep(25) self.temp_test_slide.setValue(38) self.temp_test_slide.setOrientation(Qt.Vertical) self.temp_check_outside = QCheckBox(self.settings) self.temp_check_outside.setObjectName(u"temp_check_outside") self.temp_check_outside.setText(u"Outside") self.temp_check_outside.setGeometry(QRect(640, 110, 86, 20)) self.grace_period = QSpinBox(self.settings) self.grace_period.setObjectName(u"grace_period") self.grace_period.setGeometry(QRect(411, 31, 111, 41)) self.grace_period.setFont(font8) self.grace_period.setMinimum(1) self.grace_period.setMaximum(60) self.grace_period.setValue(self.bedtime_grace_period) self.grace_period.setDisplayIntegerBase(10) self.grace_period_label = QLabel(self.settings) self.grace_period_label.setObjectName(u"grace_period_label") self.grace_period_label.setText(u"Grace period:") self.grace_period_label.setGeometry(QRect(410, 10, 111, 16)) self.grace_period_label.setFont(font8) ################################################################################################# # SET ALL LABEL TEXTS ################################################################################################# # if QT_CONFIG(tooltip) self.sleep.setToolTip(u"Put display to sleep") self.ledball_on2.setToolTip(u"Turn on the LED Ball, mode 2") self.ledball_on.setToolTip(u"Turn on the LED Ball.") self.ledball_off.setToolTip(u"Turn off the LED Ball.") # endif // QT_CONFIG(tooltip) ################################################################################################# # Make the Connections. ################################################################################################# self.temp_test_slide.valueChanged.connect(self.test_temp_update) self.temp_check_outside.clicked.connect(self.test_temp_update) self.ledball_off.clicked.connect(self.set_ledball_off) self.ledball_on.clicked.connect(self.set_ledball_on) self.ledball_on2.clicked.connect(self.set_ledball_on2) self.sleep.clicked.connect(self.set_sleep) self.timeEdit.timeChanged.connect(self.set_bedtime) self.grace_period.valueChanged.connect(self.set_grace_period) self.Brightness.valueChanged.connect(self.set_screen_brightness) self.Brightness.valueChanged.connect(self.Brightness_Value.display) def setup_from_json(self, json): """Set settings from the json dictionary passed.""" if "BedTime" in json: new_bedtime = QTime.fromString(json["BedTime"], "hh:mm:ss") if not new_bedtime.isValid(): new_bedtime = QTime.fromString(json["BedTime"], "hh:mm") if new_bedtime.isValid(): self.bedtime = new_bedtime self.timeEdit.setTime(self.bedtime) else: print("Could not set bedtime to {}".format(str(new_bedtime))) if "GracePeriod" in json: self.bedtime_grace_period = int(json["GracePeriod"]) self.grace_period.setValue(self.bedtime_grace_period) if "Brightness" in json: self.LCD_brightness = int(json["Brightness"]) self.Brightness.setValue(self.LCD_brightness) @Slot() def update(self): """This is called every second to perform the clock functions.""" AnalogClock.update(self) dtime = QDateTime.currentDateTime() text = dtime.toString("ddd MMM dd hh:mm:ss") self.Digital.setText(text) time = dtime.time() if self.bedtime < time < self.bedtime.addSecs(self.bedtime_grace_period * 60): self.Digital.setStyleSheet("color: rgba(200,100,0,200)") self.Digital.setText(text + " Bedtime") if self.bedtime < time < self.bedtime.addSecs(1) and self.LEDBall_state > 0: self.set_ledball_ready_for_bed() if self.bedtime.addSecs(self.bedtime_grace_period*60) < time < \ self.bedtime.addSecs(self.bedtime_grace_period*60 + 1): self.Digital.setStyleSheet("") self.set_ledball_off() self.turn_off_lcd() @Slot() def set_ledball_off(self): """Turn off the LED ball.""" if self.debug > 0: print("Set LED ball off.") os.system("ssh bbb1 \"./LEDBall_off.py\" >/dev/null") self.LEDBall_state = 0 @Slot() def set_ledball_ready_for_bed(self): """Set LED ball to very red.""" if self.LEDBall_state != 3: if self.debug > 0: print("Set LED ball to ready for bed.") os.system("ssh bbb1 \"./LEDBall_off.py && ./matrix.py 200 5.\" >/dev/null ") self.LEDBall_state = 3 @Slot() def set_ledball_on(self): """Turn LED ball to normal on""" if self.debug > 0: print("Set LED ball on.") os.system("(ssh bbb1 \"./LEDBall_off.py && ./matrix.py 200\" >/dev/null)") self.LEDBall_state = 1 @Slot() def set_ledball_on2(self): """Turn LED ball to alternate on""" if self.debug > 0: print("Set LED ball alternate on.") os.system("(ssh bbb1 \"./LEDBall_off.py && ./matrix.py 300 3. 50\" >/dev/null)"); self.LEDBall_state = 2 @Slot() def set_sleep(self): self.set_ledball_off() self.turn_off_lcd() def turn_off_lcd(self): """Turn the LCD off with the DPMS.""" if os.uname().sysname == "Linux": os.system("/usr/bin/xset dpms force off"); def set_pressure_color(selfs, obj, press, valid = True): """Set the color of obj according to the pressure. """ pressures = (900., 950., 1000., 1020., 1040.) colors = (0, 60, 120, 240, 300) if valid: if press < pressures[0]: press = pressures[0] + 0.0001 if press > pressures[-1]: press = pressures[-1] - 0.0001 i=0 while press > pressures[i]: i += 1 hue = int(((press - pressures[i-1])/(pressures[i] - pressures[i-1]))*(colors[i]-colors[i-1]) + colors[i-1]) color = QColor.fromHsv(hue, 255, 120, 255) obj.setStyleSheet("color: rgba({},{},{},255)".format(color.red(), color.green(), color.blue())) def set_temp_color(self, obj, temp, inside=True, invalid=False): """Set the color of obj depending on the temperature displayed by obj.""" temps = (-15., 16., 28., 40.) colors = (270, 145, 60, 0) if inside: temps = (12., 20., 25., 32.) if invalid: obj.setStyleSheet("color: rgba(100,100,100,100)") else: if temp < temps[0]: temp = temps[0] + 0.0001 if temp > temps[-1]: temp = temps[-1] - 0.0001 i = 0 while temp > temps[i]: i += 1 hue = int(((temp - temps[i-1])/(temps[i] - temps[i-1]))*(colors[i] - colors[i-1]) + colors[i-1]) color = QColor.fromHsv(hue, 255, 150, 255) obj.setStyleSheet("color: rgba({},{},{},255)".format(color.red(), color.green(), color.blue())) @Slot() def test_temp_update(self, val=None): """Update the temperature on the test slider.""" if val is None or type(val) is bool: val = self.temp_test_slide.value() temp = val*0.1 text = "{:6.2f} C".format(temp) self.temp_test.setText(text) self.set_temp_color(self.temp_test, temp, not self.temp_check_outside.isChecked(), False) @Slot() def set_bedtime(self, ntime): """Set the bedtime to a new time""" self.bedtime = ntime @Slot() def set_grace_period(self, grace): """Set the grace period to a new delta time""" self.bedtime_grace_period = grace @Slot() def set_screen_brightness(self, value): """Set the brightness of the screen on Raspberry Pi""" self.LCD_brightness = value if os.uname().sysname == "Linux": try: f = open("/sys/class/backlight/rpi_backlight/brightness", "w") f.write(str(value)) f.close() except Exception as e: print("Issue with opening brightness file \n",e)