def _create_station_selection_criteria(self): Nmax_label = QLabel('Nbr. of stations :') self.Nmax = QSpinBox() self.Nmax.setRange(0, 99) self.Nmax.setMinimum(1) self.Nmax.setValue(CONF.get('gapfill_data', 'nbr_of_station', 4)) self.Nmax.setAlignment(Qt.AlignCenter) ttip = ('<p>Distance limit beyond which neighboring stations' ' are excluded from the gapfilling procedure.</p>' '<p>This condition is ignored if set to -1.</p>') distlimit_label = QLabel('Max. Distance :') distlimit_label.setToolTip(ttip) self.distlimit = QSpinBox() self.distlimit.setRange(-1, 9999) self.distlimit.setSingleStep(1) self.distlimit.setValue( CONF.get('gapfill_data', 'max_horiz_dist', 100)) self.distlimit.setToolTip(ttip) self.distlimit.setSuffix(' km') self.distlimit.setAlignment(Qt.AlignCenter) self.distlimit.valueChanged.connect(self._update_corrcoeff_table) ttip = ('<p>Altitude difference limit over which neighboring ' ' stations are excluded from the gapfilling procedure.</p>' '<p>This condition is ignored if set to -1.</p>') altlimit_label = QLabel('Max. Elevation Diff. :') altlimit_label.setToolTip(ttip) self.altlimit = QSpinBox() self.altlimit.setRange(-1, 9999) self.altlimit.setSingleStep(1) self.altlimit.setValue( CONF.get('gapfill_data', 'max_vert_dist', 350)) self.altlimit.setToolTip(ttip) self.altlimit.setSuffix(' m') self.altlimit.setAlignment(Qt.AlignCenter) self.altlimit.valueChanged.connect(self._update_corrcoeff_table) # Setup the main widget. widget = QGroupBox('Stations Selection Criteria') layout = QGridLayout(widget) layout.addWidget(Nmax_label, 0, 0) layout.addWidget(self.Nmax, 0, 1) layout.addWidget(distlimit_label, 1, 0) layout.addWidget(self.distlimit, 1, 1) layout.addWidget(altlimit_label, 2, 0) layout.addWidget(self.altlimit, 2, 1) layout.setColumnStretch(0, 1) return widget
def _create_regression_model_settings(self): self.RMSE_regression = QRadioButton('Ordinary Least Squares') self.RMSE_regression.setChecked( CONF.get('gapfill_data', 'regression_model', 'OLS') == 'OLS') self.ABS_regression = QRadioButton('Least Absolute Deviations') self.ABS_regression.setChecked( CONF.get('gapfill_data', 'regression_model', 'OLS') == 'LAD') widget = QGroupBox('Regression Model') layout = QGridLayout(widget) layout.addWidget(self.RMSE_regression, 0, 0) layout.addWidget(self.ABS_regression, 1, 0) return widget
def get_select_file_dialog_dir(): """" Return the directory that should be displayed by default in file dialogs. """ directory = CONF.get('main', 'select_file_dialog_dir', get_home_dir()) directory = directory if osp.exists(directory) else get_home_dir() return directory
def _restore_window_state(self): """ Restore the state of this mainwindow’s toolbars and dockwidgets from the value saved in the config. """ # Then we appply saved configuration if it exists. hexstate = CONF.get('main', 'window/state', None) if hexstate: hexstate = hexstate_to_qbytearray(hexstate) self.restoreState(hexstate)
def _restore_window_geometry(self): """ Restore the geometry of this mainwindow from the value saved in the config. """ hexstate = CONF.get('download_data', 'window/geometry', None) if hexstate: hexstate = hexstate_to_qbytearray(hexstate) self.restoreGeometry(hexstate) else: self.resize(1000, 450)
def _restore_window_geometry(self): """ Restore the geometry of this mainwindow from the value saved in the config. """ hexstate = CONF.get('main', 'window/geometry', None) if hexstate: hexstate = hexstate_to_qbytearray(hexstate) self.restoreGeometry(hexstate) else: from cdprep.config.gui import INIT_MAINWINDOW_SIZE self.resize(*INIT_MAINWINDOW_SIZE)
def __init__(self): super().__init__() self.setWindowTitle(__namever__) self.setWindowIcon(get_icon('master')) self.setContextMenuPolicy(Qt.NoContextMenu) if platform.system() == 'Windows': import ctypes myappid = 'climate_data_preprocessing_tool' # arbitrary string ctypes.windll.shell32.SetCurrentProcessExplicitAppUserModelID( myappid) self.data_downloader = None # Setup the toolbar. self.show_data_downloader_btn = QToolButton() self.show_data_downloader_btn.setIcon(get_icon('search_weather_data')) self.show_data_downloader_btn.setAutoRaise(True) self.show_data_downloader_btn.setToolTip("Download Data") self.show_data_downloader_btn.clicked.connect( self.show_data_downloader) toolbar = QToolBar('Main') toolbar.setObjectName('main_toolbar') toolbar.setFloatable(False) toolbar.setMovable(False) toolbar.setIconSize(get_iconsize('normal')) self.addToolBar(Qt.TopToolBarArea, toolbar) toolbar.addWidget(self.show_data_downloader_btn) toolbar.addWidget(create_toolbar_stretcher()) toolbar.addWidget(self._create_workdir_manager()) # Setup the main widget. self.gapfiller = WeatherDataGapfiller() self.setCentralWidget(self.gapfiller) self._restore_window_geometry() self._restore_window_state() self.set_workdir(CONF.get('main', 'working_dir', get_home_dir()))
def __initUI__(self): self.setWindowTitle('Download Weather Data') self.setWindowIcon(get_icon('master')) self.setWindowFlags(Qt.Window) now = datetime.now() # Setup the proximity filter group. self.lat_spinBox = QDoubleSpinBox() self.lat_spinBox.setAlignment(Qt.AlignCenter) self.lat_spinBox.setSingleStep(0.1) self.lat_spinBox.setDecimals(3) self.lat_spinBox.setValue(CONF.get('download_data', 'latitude', 0)) self.lat_spinBox.setMinimum(0) self.lat_spinBox.setMaximum(180) self.lat_spinBox.setSuffix(u' °') self.lat_spinBox.valueChanged.connect(self.proximity_grpbox_toggled) self.lon_spinBox = QDoubleSpinBox() self.lon_spinBox.setAlignment(Qt.AlignCenter) self.lon_spinBox.setSingleStep(0.1) self.lon_spinBox.setDecimals(3) self.lon_spinBox.setValue(CONF.get('download_data', 'longitude', 0)) self.lon_spinBox.setMinimum(0) self.lon_spinBox.setMaximum(180) self.lon_spinBox.setSuffix(u' °') self.lon_spinBox.valueChanged.connect(self.proximity_grpbox_toggled) self.radius_SpinBox = QComboBox() self.radius_SpinBox.addItems(['25 km', '50 km', '100 km', '200 km']) self.radius_SpinBox.setCurrentIndex( CONF.get('download_data', 'radius_index', 0)) self.radius_SpinBox.currentIndexChanged.connect( self.search_filters_changed) self.prox_grpbox = QGroupBox("Proximity Filter") self.prox_grpbox.setCheckable(True) self.prox_grpbox.setChecked( CONF.get('download_data', 'proximity_filter', False)) self.prox_grpbox.toggled.connect(self.proximity_grpbox_toggled) prox_search_grid = QGridLayout(self.prox_grpbox) prox_search_grid.addWidget(QLabel('Latitude:'), 0, 0) prox_search_grid.addWidget(self.lat_spinBox, 0, 1) prox_search_grid.addWidget(QLabel('North'), 0, 2) prox_search_grid.addWidget(QLabel('Longitude:'), 1, 0) prox_search_grid.addWidget(self.lon_spinBox, 1, 1) prox_search_grid.addWidget(QLabel('West'), 1, 2) prox_search_grid.addWidget(QLabel('Search Radius:'), 2, 0) prox_search_grid.addWidget(self.radius_SpinBox, 2, 1) prox_search_grid.setColumnStretch(0, 100) prox_search_grid.setRowStretch(3, 100) # ---- Province filter self.prov_widg = QComboBox() self.prov_widg.addItems(['All'] + self.PROV_NAME) self.prov_widg.setCurrentIndex( CONF.get('download_data', 'province_index', 0)) self.prov_widg.currentIndexChanged.connect(self.search_filters_changed) prov_grpbox = QGroupBox() prov_layout = QGridLayout(prov_grpbox) prov_layout.addWidget(QLabel('Province:'), 0, 0) prov_layout.addWidget(self.prov_widg, 0, 1) prov_layout.setColumnStretch(0, 1) prov_layout.setRowStretch(1, 1) # ---- Data availability filter # Number of years with data self.nbrYear = QSpinBox() self.nbrYear.setAlignment(Qt.AlignCenter) self.nbrYear.setSingleStep(1) self.nbrYear.setMinimum(0) self.nbrYear.setValue(CONF.get('download_data', 'min_nbr_of_years', 3)) self.nbrYear.valueChanged.connect(self.search_filters_changed) subgrid1 = QGridLayout() subgrid1.setContentsMargins(0, 0, 0, 0) subgrid1.addWidget(QLabel('for at least'), 0, 0) subgrid1.addWidget(self.nbrYear, 0, 1) subgrid1.addWidget(QLabel('year(s)'), 0, 2) subgrid1.setColumnStretch(3, 100) subgrid1.setHorizontalSpacing(5) # Year range self.minYear = QSpinBox() self.minYear.setAlignment(Qt.AlignCenter) self.minYear.setSingleStep(1) self.minYear.setMinimum(1840) self.minYear.setMaximum(now.year) self.minYear.setValue( CONF.get('download_data', 'year_range_left_bound', 1840)) self.minYear.valueChanged.connect(self.minYear_changed) label_and = QLabel('and') label_and.setAlignment(Qt.AlignCenter) self.maxYear = QSpinBox() self.maxYear.setAlignment(Qt.AlignCenter) self.maxYear.setSingleStep(1) self.maxYear.setMinimum(1840) self.maxYear.setMaximum(now.year) self.maxYear.setValue( CONF.get('download_data', 'year_range_right_bound', now.year)) self.maxYear.valueChanged.connect(self.maxYear_changed) subgrid2 = QGridLayout() subgrid2.addWidget(QLabel('between'), 0, 0) subgrid2.addWidget(self.minYear, 0, 1) subgrid2.addWidget(label_and, 0, 2) subgrid2.addWidget(self.maxYear, 0, 3) subgrid2.setContentsMargins(0, 0, 0, 0) subgrid2.setColumnStretch(4, 100) subgrid2.setHorizontalSpacing(5) # Subgridgrid assembly self.year_widg = QGroupBox("Data Availability filter") self.year_widg.setCheckable(True) self.year_widg.setChecked( CONF.get('download_data', 'data_availability_filter', False)) self.year_widg.toggled.connect(self.search_filters_changed) grid = QGridLayout(self.year_widg) grid.setRowMinimumHeight(0, 10) grid.addWidget(QLabel('Search for stations with data available'), 1, 0) grid.addLayout(subgrid1, 2, 0) grid.addLayout(subgrid2, 3, 0) grid.setRowStretch(4, 100) grid.setVerticalSpacing(8) # Setup the toolbar. self.btn_addSta = QPushButton('Add') self.btn_addSta.setIcon(get_icon('add2list')) self.btn_addSta.setIconSize(get_iconsize('small')) self.btn_addSta.setToolTip( 'Add selected stations to the current list of weather stations.') self.btn_addSta.clicked.connect(self.btn_addSta_isClicked) self.btn_addSta.hide() btn_save = QPushButton('Save') btn_save.setToolTip('Save the list of selected stations to a file.') btn_save.clicked.connect(self.btn_save_isClicked) btn_save.hide() self.btn_download = QPushButton('Download') self.btn_download.clicked.connect(self.start_download_process) btn_close = QPushButton('Close') btn_close.clicked.connect(self.close) self.btn_fetch = btn_fetch = QPushButton('Refresh') btn_fetch.setToolTip( "Update the list of climate stations by fetching it from " "the ECCC remote location.") btn_fetch.clicked.connect(self.btn_fetch_isClicked) toolbar_widg = QWidget() toolbar_grid = QGridLayout(toolbar_widg) toolbar_grid.addWidget(self.btn_addSta, 1, 1) toolbar_grid.addWidget(btn_save, 1, 2) toolbar_grid.addWidget(btn_fetch, 1, 3) toolbar_grid.addWidget(self.btn_download, 1, 4) toolbar_grid.addWidget(btn_close, 1, 5) toolbar_grid.setColumnStretch(0, 100) toolbar_grid.setContentsMargins(0, 10, 0, 0) # Setup the left panel. self.left_panel = QFrame() left_panel_grid = QGridLayout(self.left_panel) left_panel_grid.setContentsMargins(0, 0, 0, 0) left_panel_grid.addWidget(QLabel('Search Criteria'), 0, 0) left_panel_grid.addWidget(prov_grpbox, 1, 0) left_panel_grid.addWidget(self.prox_grpbox, 2, 0) left_panel_grid.addWidget(self.year_widg, 3, 0) left_panel_grid.setRowStretch(3, 100) # Setup the progress bar. self.progressbar = QProgressBar() self.progressbar.setValue(0) self.progressbar.hide() # Setup the central widget. main_widget = QWidget() main_layout = QGridLayout(main_widget) main_layout.addWidget(self.left_panel, 0, 0) main_layout.addWidget(self.station_table, 0, 1) main_layout.addWidget(self.waitspinnerbar, 0, 1) main_layout.addWidget(toolbar_widg, 1, 0, 1, 2) main_layout.addWidget(self.progressbar, 2, 0, 1, 2) main_layout.setColumnStretch(1, 100) self.setCentralWidget(main_widget)