class PipOutput(QDialog): def __init__(self, parent=None): super(PipOutput, self).__init__(parent) self.create_controls() def sizeHint(self): def_sz = super(PipOutput, self).sizeHint() def_sz.setWidth(500) return def_sz def create_controls(self): self.setWindowTitle(tr("Updating via pip")) wFlags = self.windowFlags() if Qt.WindowCloseButtonHint == (wFlags & Qt.WindowCloseButtonHint): wFlags ^= Qt.WindowCloseButtonHint self.setWindowFlags(wFlags) vbox = QVBoxLayout() self.output = QTextEdit() if self.parent() and hasattr(self.parent(), 'console'): self.output.setFont(self.parent().console.font) vbox.addWidget(self.output) hbox = QHBoxLayout() hbox.addStretch() self.btn_close = QPushButton(tr("Close")) self.btn_close.clicked.connect(self.accept) self.btn_close.setEnabled(False) hbox.addWidget(self.btn_close) vbox.addLayout(hbox) self.setLayout(vbox)
class Console(FramelessWindow): message = Signal(dict) def __init__(self, parent=None): super(Console, self).__init__(parent) self.json_decode_warning = None self.widget = QWidget(self) self.console_layout = QVBoxLayout(self.widget) self.widget.setLayout(self.console_layout) self.output_label = QLabel(self.widget) self.output_label.setText("Output") self.output_edit = QTextEdit(self.widget) self.output_edit.setReadOnly(True) self.highlighter = Highlighter(self.output_edit.document()) self.output_edit.setStyleSheet("background-color: rgb(0, 0, 0);") self.output_edit.setTextColor(QColor(0, 255, 0)) self.output_edit.setFont(QFont(self.output_edit.currentFont().family(), 10)) self.input_label = QLabel(self.widget) self.input_label.setText("Command") self.input_edit = QLineEdit(self.widget) self.input_edit.setStyleSheet("background-color: rgb(0, 0, 0); color: rgb(0, 255, 0)") self.input_edit.setFont(QFont(self.output_edit.currentFont().family(), 10)) self.send_button = QPushButton(self.widget) self.send_button.setObjectName("send_button") self.send_button.setText("Send command") self.console_layout.addWidget(self.output_label) self.console_layout.addWidget(self.output_edit) self.console_layout.addWidget(self.input_label) self.console_layout.addWidget(self.input_edit) self.console_layout.addWidget(self.send_button) self.addContentWidget(self.widget) QMetaObject.connectSlotsByName(self) def on_send_button_clicked(self): mess = self.input_edit.text() try: mess = json.loads(mess) self.message.emit(mess) self.input_edit.clear() self.output_edit.append("$: {}".format(mess)) except json.JSONDecodeError as e: self.json_decode_warning = FramelessCriticalMessageBox(self) self.json_decode_warning.setText("Failed to convert string to JSON: {}".format(e)) self.json_decode_warning.setStandardButtons(QDialogButtonBox.Ok) self.json_decode_warning.button(QDialogButtonBox.Ok).clicked.connect(self.json_decode_warning.close) self.json_decode_warning.show() def write(self, resp: dict): if resp.get("event_type"): resp = "[{}]: {}".format(str(resp.get("event_type")).upper(), resp) else: resp = str(resp) self.output_edit.append(resp)
class NodeDetailsWidget(QGroupBox): def __init__(self, main_window, nodes_tree_widget): super().__init__('details') self.main_window = main_window self.nodes_tree_widget = nodes_tree_widget self.nodes_tree_widget.details_widget = self self.setLayout(QVBoxLayout()) self.doc_text_edit = QTextEdit() self.doc_text_edit.setFont(QFont('Consolas', 9)) self.doc_text_edit.setReadOnly(True) self.layout().addWidget(self.doc_text_edit) self.node = None def set_node(self, node): self.node = node self.update_details() def update_details(self): self.doc_text_edit.setText(self.node.doc)
class TextEditor(BaseDialog): """Array Editor Dialog""" def __init__(self, text, title='', font=None, parent=None, readonly=False): QDialog.__init__(self, parent) # Destroying the C++ object right after closing the dialog box, # otherwise it may be garbage-collected in another QThread # (e.g. the editor's analysis thread in Spyder), thus leading to # a segmentation fault on UNIX or an application crash on Windows self.setAttribute(Qt.WA_DeleteOnClose) self.text = None self.btn_save_and_close = None # Display text as unicode if it comes as bytes, so users see # its right representation if is_binary_string(text): self.is_binary = True text = to_text_string(text, 'utf8') else: self.is_binary = False self.layout = QVBoxLayout() self.setLayout(self.layout) # Text edit self.edit = QTextEdit(parent) self.edit.setReadOnly(readonly) self.edit.textChanged.connect(self.text_changed) self.edit.setPlainText(text) if font is None: font = get_font() self.edit.setFont(font) self.layout.addWidget(self.edit) # Buttons configuration btn_layout = QHBoxLayout() btn_layout.addStretch() if not readonly: self.btn_save_and_close = QPushButton(_('Save and Close')) self.btn_save_and_close.setDisabled(True) self.btn_save_and_close.clicked.connect(self.accept) btn_layout.addWidget(self.btn_save_and_close) self.btn_close = QPushButton(_('Close')) self.btn_close.setAutoDefault(True) self.btn_close.setDefault(True) self.btn_close.clicked.connect(self.reject) btn_layout.addWidget(self.btn_close) self.layout.addLayout(btn_layout) # Make the dialog act as a window self.setWindowFlags(Qt.Window) self.setWindowIcon(ima.icon('edit')) if title: try: unicode_title = to_text_string(title) except UnicodeEncodeError: unicode_title = u'' else: unicode_title = u'' self.setWindowTitle(_("Text editor") + \ u"%s" % (u" - " + unicode_title if unicode_title else u"")) @Slot() def text_changed(self): """Text has changed""" # Save text as bytes, if it was initially bytes if self.is_binary: self.text = to_binary_string(self.edit.toPlainText(), 'utf8') else: self.text = to_text_string(self.edit.toPlainText()) if self.btn_save_and_close: self.btn_save_and_close.setEnabled(True) self.btn_save_and_close.setAutoDefault(True) self.btn_save_and_close.setDefault(True) def get_value(self): """Return modified text""" # It is import to avoid accessing Qt C++ object as it has probably # already been destroyed, due to the Qt.WA_DeleteOnClose attribute return self.text def setup_and_check(self, value): """Verify if TextEditor is able to display strings passed to it.""" try: to_text_string(value, 'utf8') return True except: return False
class MainWindow(QMainWindow): def selectFileToOpen(self): def getPreProcessingChoice(self, filename, filestructure): items = ("Choose the longest", "Merge all") item, okPressed = QInputDialog.getItem( self, "Multiple tracks/segments", "File '" + filename + "' contains more than one track/segment\n\n" + infos + "\nWhat to do?", items, 0, False) if okPressed and item: return items.index(item) else: return 0 # Try to recover the last used directory old_directory = self.settings.value("lastdirectory", str) # Check if the setting exists if old_directory is not None: # Check if it's not empty if old_directory: old_directory = old_directory else: old_directory = bombo.TRACKS_FOLDER else: old_directory = bombo.TRACKS_FOLDER # Open the dialog box fullfilename_list = QFileDialog.getOpenFileNames( self, 'Open .gpx', old_directory, "GPX files (*.gpx)") if os.environ['QT_API'] == 'pyqt': pass elif os.environ['QT_API'] == 'pyqt5': fullfilename_list = fullfilename_list[0] # Process every selected file for i, fullfilename in enumerate(fullfilename_list): # Process filename directory, filename = os.path.split(str(fullfilename)) filename, fileextension = os.path.splitext(filename) # Save the new directory in the application settings (it only # needs to be done once) if i == 0: # print "New directory to be saved: {}\n".format(directory) if os.environ['QT_API'] == 'pyqt': self.settings.setValue("lastdirectory", str(directory)) elif os.environ['QT_API'] == 'pyqt5': self.settings.setValue("lastdirectory", QtCore.QVariant(str(directory))) # Open file and inspect what's inside gpxraw, longest_traseg, Ntracks, Nsegments, infos = bombo.LoadGPX( fullfilename) # If there's more than one track or segment, ask how to proceed if (Ntracks > 1) or (Nsegments > 1): preprocessingchoice = getPreProcessingChoice( self, filename, infos) if preprocessingchoice == 0: preprocessedgpx = bombo.SelectOneTrackAndSegmentFromGPX( gpxraw, longest_traseg[0], longest_traseg[1]) listname = filename + " (longest)" elif preprocessingchoice == 1: preprocessedgpx = bombo.MergeAllTracksAndSegmentsFromGPX( gpxraw) listname = filename + " (merged)" else: preprocessedgpx = gpxraw listname = filename # Append the list of open GPX files using the next available color (that's the size of the list -1) self.gpxlist.append(preprocessedgpx) self.gpxnamelist.append(listname) newitem = QListWidgetItem(listname) newitem.setBackground( QtGui.QColor(self.palette[len(self.gpxlist) - 1])) self.tracklist.addItem(newitem) return def Go(self): if len(self.gpxselectedlist) > 0: # Temporarily change cursor QApplication.setOverrideCursor(QtCore.Qt.WaitCursor) # Clear up global variables self.proc_coords = [] self.proc_measurements = [] self.proc_state_means = [] self.proc_state_vars = [] self.proc_new_coords = [] self.proc_new_gpx = [] self.proc_coords_to_plot = [] self.proc_coords_to_plot2 = [] self.proc_balloondata = [] # For every GPX file that is selected self.textWarningConsole.clear() for i, currentgpx in enumerate(self.gpxselectedlist): # Parse the GPX file gpx, coords, dinfos_before, warnings = bombo.ParseGPX( currentgpx, track_nr=0, segment_nr=0, use_srtm_elevation=bool(self.checkUseSRTM.isChecked())) self.textWarningConsole.append(warnings) # Kalman processing coords, measurements, state_means, state_vars, dinfos_during = bombo.ApplyKalmanFilter( coords, gpx, method=self.comboBoxProcessingMethod.currentIndex(), use_acceleration=self.checkUseAcceleration.isChecked(), extra_smooth=self.checkExtraSmooth.isChecked(), debug_plot=False) # Save data in GPX structure to compute speed and elevations new_coords, new_gpx, dinfos_after = bombo.SaveDataToCoordsAndGPX( coords, state_means) # Update GUI with the computed stats parent = QtGui.QStandardItem(self.gpxselectednamelist[i]) parent_beforeprocessing = QtGui.QStandardItem("Raw GPX stats") parent_beforeprocessing.appendRow([ QtGui.QStandardItem("Total distance"), QtGui.QStandardItem(dinfos_before['total_distance']) ]) parent_beforeprocessing_moving = QtGui.QStandardItem("Moving") parent_beforeprocessing_moving.appendRow([ QtGui.QStandardItem("Time"), QtGui.QStandardItem(dinfos_before['moving_time']) ]) parent_beforeprocessing_moving.appendRow([ QtGui.QStandardItem("Distance"), QtGui.QStandardItem(dinfos_before['moving_distance']) ]) parent_beforeprocessing.appendRow( parent_beforeprocessing_moving) parent_beforeprocessing_idle = QtGui.QStandardItem("Idle") parent_beforeprocessing_idle.appendRow([ QtGui.QStandardItem("Time"), QtGui.QStandardItem(dinfos_before['idle_time']) ]) parent_beforeprocessing_idle.appendRow([ QtGui.QStandardItem("Distance"), QtGui.QStandardItem(dinfos_before['idle_distance']) ]) parent_beforeprocessing.appendRow(parent_beforeprocessing_idle) parent_beforeprocessing.appendRow([ QtGui.QStandardItem("Elevation"), QtGui.QStandardItem(dinfos_before['elevation']) ]) parent_beforeprocessing.appendRow([ QtGui.QStandardItem("Climb"), QtGui.QStandardItem(dinfos_before['climb']) ]) parent.appendRow(parent_beforeprocessing) parent.appendRow([ QtGui.QStandardItem("Samples"), QtGui.QStandardItem(dinfos_during['nsamples']) ]) parent.appendRow([ QtGui.QStandardItem("Total distance"), QtGui.QStandardItem(dinfos_after['total_distance']) ]) parent_moving = QtGui.QStandardItem("Moving") parent_moving.appendRow([ QtGui.QStandardItem("Time"), QtGui.QStandardItem(dinfos_after['moving_time']) ]) parent_moving.appendRow([ QtGui.QStandardItem("Distance"), QtGui.QStandardItem(dinfos_after['moving_distance']) ]) parent.appendRow(parent_moving) parent_idle = QtGui.QStandardItem("Idle") parent_idle.appendRow([ QtGui.QStandardItem("Time"), QtGui.QStandardItem(dinfos_after['idle_time']) ]) parent_idle.appendRow([ QtGui.QStandardItem("Distance"), QtGui.QStandardItem(dinfos_after['idle_distance']) ]) parent.appendRow(parent_idle) parent.appendRow([ QtGui.QStandardItem("Elevation"), QtGui.QStandardItem(dinfos_after['elevation']) ]) parent.appendRow([ QtGui.QStandardItem("Climb"), QtGui.QStandardItem(dinfos_after['climb']) ]) self.treemodel.appendRow(parent) # Create balloondata for the html plot balloondata = { 'distance': np.cumsum( bombo.HaversineDistance(np.asarray(new_coords['lat']), np.asarray( new_coords['lon']))), 'elevation': np.asarray(new_coords['ele']), 'speed': None } # Create extra data for the html plot (fully implemented in bombo, not here) """ data = np.ones((len(lat_cleaned),2)) data[:,0] = h_filtered / np.max(h_filtered) * 0.0004 data[:,1] = np.hstack((np.asarray([0]), speed_h)) / np.max(np.hstack((np.asarray([0]), speed_h))) * 0.0004 tangentdata = {'data': data, 'sides': (0, 1), 'palette': ('blue','red')} """ # Save relevant output in global variables self.proc_coords.append(coords) self.proc_measurements.append(measurements) self.proc_state_means.append(state_means) self.proc_state_vars.append(state_vars) self.proc_new_coords.append(new_coords) self.proc_new_gpx.append(new_gpx) self.proc_coords_to_plot.append( np.vstack((new_coords['lat'], new_coords['lon'])).T) self.proc_coords_to_plot2.append( np.vstack((coords['lat'], coords['lon'])).T) self.proc_balloondata.append(balloondata) # Restore original cursor QApplication.restoreOverrideCursor() # Generate embedded plots if len(self.gpxselectedlist) == 1: self.plotEmbeddedElevationAndSpeed.update_figure( measurements, state_means, new_gpx.tracks[0].segments[0]) self.plotEmbeddedDetails.update_figure( measurements, state_means, state_vars, new_gpx.tracks[0].segments[0]) else: # Commentato per adesso # self.plotEmbeddedElevationAndSpeed.update_figure_multiple_tracks(self.proc_measurements, self.proc_state_means, self.proc_new_gpx) self.plotEmbeddedElevationAndSpeed.clear_figure() self.plotEmbeddedDetails.clear_figure() # Generate html plot, if only one track is selected, proceed with the complete output, otherwise just plot the traces if len(self.gpxselectedlist) is 1: bombo.PlotOnMap( coords_array_list=self.proc_coords_to_plot, coords_array2_list=self.proc_coords_to_plot2, coords_palette=self.selectedpalette, tangentdata=None, balloondata_list=self.proc_balloondata, rdp_reduction=self.checkUseRDP.isChecked(), showmap=bool(self.check2DMapInExternalBrowser.isChecked())) else: bombo.PlotOnMap( coords_array_list=self.proc_coords_to_plot, coords_array2_list=None, coords_palette=self.selectedpalette, tangentdata=None, balloondata_list=self.proc_balloondata, rdp_reduction=self.checkUseRDP.isChecked(), showmap=bool(self.check2DMapInExternalBrowser.isChecked())) self.map2d.load(QtCore.QUrl(bombo.MAP_2D_FILENAME)) self.map2d.show() # Generate 3D plot, only with one track for the moment if len(self.gpxselectedlist) == 1: if self.check3DMapSelection.isChecked(): tile_selection = 'auto' else: tile_selection = self.text3DMapName.text() terrain, track, warnings = bombo.Generate3DMap( new_coords['lat'], new_coords['lon'], tile_selection=tile_selection, margin=self.spinbox3DMargin.value(), elevation_scale=self.spinbox3DElevationScale.value(), mapping='coords', use_osm_texture=True, texture_type='osm', texture_zoom=self.spinbox3DOSMZoom.value(), texture_invert=self.check3DOSMInvert.isChecked(), use_proxy=self.use_proxy, proxy_data=self.proxy_config, verbose=False) self.textWarningConsole.append(warnings) if terrain is not None: self.map3d.update_plot(terrain, track) else: self.textWarningConsole.setText( "You need to open a .gpx file before!") return def PlotSpecificAreaDialog(self): def PlotSpecificArea(): # Save coordinates for the next time if os.environ['QT_API'] == 'pyqt': self.settings.setValue("last_point_coord_lat", self.spinboxLatDec.value()) self.settings.setValue("last_point_coord_lon", self.spinboxLonDec.value()) elif os.environ['QT_API'] == 'pyqt5': self.settings.setValue( "last_point_coord_lat", QtCore.QVariant(self.spinboxLatDec.value())) self.settings.setValue( "last_point_coord_lon", QtCore.QVariant(self.spinboxLonDec.value())) # Select the 3D Map tab self.tab.setCurrentIndex(2) # Plot if self.check3DMapSelection.isChecked(): tile_selection = 'auto' else: tile_selection = self.text3DMapName.text() terrain, track, warnings = bombo.Generate3DMap( [self.spinboxLatDec.value()], [self.spinboxLonDec.value()], tile_selection=tile_selection, margin=self.spinbox3DMargin.value(), elevation_scale=self.spinbox3DElevationScale.value(), mapping='coords', use_osm_texture=True, texture_type='osm', texture_zoom=self.spinbox3DOSMZoom.value(), texture_invert=self.check3DOSMInvert.isChecked(), use_proxy=self.use_proxy, proxy_data=self.proxy_config, verbose=False) self.textWarningConsole.append(warnings) if terrain is not None: self.map3d.update_plot(terrain, track) d.done(0) def Convert(): try: dd = bombo.parse_dms(self.textLatLonGMS.text()) self.spinboxLatDec.setValue(dd[0]) self.spinboxLonDec.setValue(dd[1]) except: pass d = QDialog() grid = QGridLayout() hBox_coordsGMS = QHBoxLayout() hBox_coordsGMS.setSpacing(5) label = QLabel('Coordinates (gms)') grid.addWidget(label, 0, 0) self.textLatLonGMS = QLineEdit() self.textLatLonGMS.setText("") grid.addWidget(self.textLatLonGMS, 0, 1, 1, 2) button1 = QPushButton("Convert to decimal") button1.clicked.connect(Convert) grid.addWidget(button1, 0, 3) label = QLabel('Coordinates (decimal)') grid.addWidget(label, 1, 0) self.spinboxLatDec = QDoubleSpinBox() self.spinboxLatDec.setRange(-90, +90) self.spinboxLatDec.setSingleStep(0.0000001) self.spinboxLatDec.setDecimals(7) grid.addWidget(self.spinboxLatDec, 1, 1) self.spinboxLonDec = QDoubleSpinBox() self.spinboxLonDec.setRange(-180, +180) self.spinboxLonDec.setSingleStep(0.0000001) self.spinboxLonDec.setDecimals(7) grid.addWidget(self.spinboxLonDec, 1, 2) # Try to recover the last used points try: old_lat = self.settings.value("last_point_coord_lat", type=float) old_lon = self.settings.value("last_point_coord_lon", type=float) self.spinboxLatDec.setValue(old_lat) self.spinboxLonDec.setValue(old_lon) except: # Coordinates of Mt. Rinjani in Indonesia self.spinboxLatDec.setValue(-8.4166000) self.spinboxLonDec.setValue(116.4666000) button2 = QPushButton("Show 3D map") button2.clicked.connect(PlotSpecificArea) grid.addWidget(button2, 1, 3) d.setWindowTitle("Show point on 3D map") d.setLayout(grid) d.setWindowModality(QtCore.Qt.ApplicationModal) d.exec_() def ProxyDialog(self): def SetProxy(): self.use_proxy = bool(self.checkUseProxy.isChecked()) self.proxy_config = self.textProxyConfig.text() if os.environ['QT_API'] == 'pyqt': self.settings.setValue("use_proxy", self.use_proxy) self.settings.setValue("proxy_config", str(self.proxy_config)) elif os.environ['QT_API'] == 'pyqt5': self.settings.setValue("use_proxy", QtCore.QVariant(self.use_proxy)) self.settings.setValue("proxy_config", QtCore.QVariant(str(self.proxy_config))) d.done(0) d = QDialog() box = QVBoxLayout() hBox_proxy = QHBoxLayout() hBox_proxy.setSpacing(5) label = QLabel('Proxy') hBox_proxy.addWidget(label) self.textProxyConfig = QLineEdit() try: self.textProxyConfig.setText( self.settings.value('proxy_config', str)) except: self.textProxyConfig.setText(bombo.PROXY_DATA) self.textProxyConfig.setMinimumWidth(200) hBox_proxy.addWidget(self.textProxyConfig) box.addLayout(hBox_proxy) self.checkUseProxy = QCheckBox("Use proxy") try: self.checkUseProxy.setChecked( self.settings.value('use_proxy', bool)) except: self.checkUseProxy.setChecked(bool(bombo.USE_PROXY)) box.addWidget(self.checkUseProxy) button = QPushButton("Save configuration") button.clicked.connect(SetProxy) box.addWidget(button) d.setWindowTitle("Proxy configuration") d.setLayout(box) d.setWindowModality(QtCore.Qt.ApplicationModal) d.exec_() def __init__(self, parent=None): super(MainWindow, self).__init__() self.initVariables() self.initUI() def initVariables(self): self.gpxlist = list() self.gpxnamelist = list() self.gpxselectedlist = list() self.gpxselectednamelist = list() self.palette = bombo.GeneratePalette(N=10) * 5 # replicated 5 times #self.palette = ["#0000FF", "#00FF00", "#00FFFF", "#FF0000", "#FF00FF", "#FFFF00", "#FFFFFF"] # test palette self.selectedpalette = list() self.proc_coords = list() self.proc_measurements = list() self.proc_state_means = list() self.proc_state_vars = list() self.proc_new_coords = list() self.proc_new_gpx = list() self.proc_coords_to_plot = list() self.proc_coords_to_plot2 = list() self.proc_balloondata = list() def initUI(self): def selection_changed(): # Retrieve selected items # selecteditems = self.tracklist.selectedItems() selectedindexes = self.tracklist.selectedIndexes() # Adding the selected items to the processing list self.gpxselectedlist[:] = [] self.gpxselectednamelist[:] = [] self.selectedpalette[:] = [] for i in selectedindexes: # print str(i.text()) self.gpxselectedlist.append(self.gpxlist[i.row()]) self.gpxselectednamelist.append(self.gpxnamelist[i.row()]) self.selectedpalette.append(self.palette[i.row()]) def ClearStats(): """ # Some other code that could be used in the future index = self.treemodel.indexFromItem(parent1) self.tree.expand(index) selmod = self.tree.selectionModel() index2 = self.treemodel.indexFromItem(child2) selmod.select(index2, QtCore.QItemSelectionModel.Select|QtCore.QItemSelectionModel.Rows) root = self.treemodel.invisibleRootItem() (item.parent() or root).removeChild(item) """ # Returns a list of indexes. In our case, for each row there are 2 indexes, cos there are 2 columns. for index in self.tree.selectedIndexes(): # Consider only the first columns if index.column() == 0: # Need to check if it's a top item (i.e. track), otherwise if a subitem (i.e. distance or time) is selected, the result might be buggy parent = index.parent() parent_item = self.treemodel.itemFromIndex(parent) if parent_item is None: self.treemodel.removeRow(index.row()) # Application Settings QtCore.QCoreApplication.setOrganizationName("Ste") QtCore.QCoreApplication.setOrganizationDomain( "https://github.com/stesalati/sport/") QtCore.QCoreApplication.setApplicationName("TrackAnalyser") # Config settings self.settings = QtCore.QSettings(self) # Proxy settings try: self.use_proxy = self.settings.value('use_proxy', bool) self.proxy_config = self.settings.value('proxy_config', str) except: self.use_proxy = bombo.USE_PROXY self.proxy_config = bombo.PROXY_DATA # Actions openfile = QAction(QtGui.QIcon("icons/openfile.png"), "Open .gpx", self) openfile.setShortcut("Ctrl+O") openfile.setStatusTip("Open file") openfile.triggered.connect(self.selectFileToOpen) go = QAction(QtGui.QIcon("icons/go.png"), "Go!", self) go.setShortcut("Ctrl+R") go.setStatusTip("Run analysis") go.triggered.connect(self.Go) clearstats = QAction(QtGui.QIcon("icons/clear.png"), "Clear stats", self) clearstats.setShortcut("Ctrl+C") clearstats.setStatusTip("Clear stats") clearstats.triggered.connect(ClearStats) sep1 = QAction(self) sep1.setSeparator(True) showpoint = QAction(QtGui.QIcon("icons/point.png"), "Show point", self) showpoint.setShortcut("Ctrl+P") showpoint.setStatusTip("Show point") showpoint.triggered.connect(self.PlotSpecificAreaDialog) sep2 = QAction(self) sep2.setSeparator(True) quitapp = QAction(QtGui.QIcon("icons/quit.png"), "Quit", self) quitapp.setShortcut("Ctrl+Q") quitapp.setStatusTip("Quit application") quitapp.triggered.connect(qApp.quit) configs = QAction(QtGui.QIcon("icons/configs.png"), "Configs", self) configs.setStatusTip("Configs") configs.triggered.connect(self.ProxyDialog) # Menubar mainMenu = self.menuBar() configMenu = mainMenu.addMenu('&Config') configMenu.addAction(configs) # Toolbar toolbar = self.addToolBar('My tools') toolbar.addAction(openfile) toolbar.addAction(go) toolbar.addAction(clearstats) toolbar.addAction(sep1) toolbar.addAction(showpoint) toolbar.addAction(sep2) toolbar.addAction(quitapp) toolbar.setToolButtonStyle(QtCore.Qt.ToolButtonTextUnderIcon) toolbar.setIconSize(QtCore.QSize(30, 30)) # Status bar self.statusBar().show() # Main widget (everything that's not toolbar, statusbar or menubar must be in this widget) self.scatola = QWidget() # Main horizontal impagination hBox = QHBoxLayout() hBox.setSpacing(5) # Vertical left column vBox_left = QVBoxLayout() vBox_left.setSpacing(5) # 1st vertical box, a list self.tracklist = QListWidget() vBox_left.addWidget(self.tracklist) self.tracklist.setSelectionMode(QAbstractItemView.ExtendedSelection) self.tracklist.itemSelectionChanged.connect(selection_changed) self.tracklist.setMaximumHeight(120) # 2nd vertical box, containing several horizontal boxes, one for each setting vBox2 = QVBoxLayout() vBox2.setSpacing(5) # Just the group label labelSettings = QLabel('Settings') vBox2.addWidget(labelSettings) # Use/don't use corrected altitude self.checkUseSRTM = QCheckBox( "Use SRTM corrected elevation (needs Internet)") self.checkUseSRTM.setChecked(False) vBox2.addWidget(self.checkUseSRTM) # Choose processing method + use/don't use acceleration hBoxProcessingMethod = QHBoxLayout() labelProcessingMethod = QLabel('Processing method') hBoxProcessingMethod.addWidget(labelProcessingMethod) self.comboBoxProcessingMethod = QComboBox() self.comboBoxProcessingMethod.addItem("Just use available data") self.comboBoxProcessingMethod.addItem( "Fill all gaps at T=1s (resample)") self.comboBoxProcessingMethod.addItem("Fill only smaller gaps at T=1s") hBoxProcessingMethod.addWidget(self.comboBoxProcessingMethod) self.checkUseAcceleration = QCheckBox("Use acceleration") self.checkUseAcceleration.setChecked(False) hBoxProcessingMethod.addWidget(self.checkUseAcceleration) vBox2.addLayout(hBoxProcessingMethod) # Use/don't use variance smooth self.checkExtraSmooth = QCheckBox("Extra smooth") self.checkExtraSmooth.setChecked(False) vBox2.addWidget(self.checkExtraSmooth) # 2D interactive map settings hBox2DMap = QHBoxLayout() self.checkUseRDP = QCheckBox("Use RDP to reduce points") self.checkUseRDP.setChecked(False) hBox2DMap.addWidget(self.checkUseRDP) self.check2DMapInExternalBrowser = QCheckBox( "Show in external browser") self.check2DMapInExternalBrowser.setChecked(False) hBox2DMap.addWidget(self.check2DMapInExternalBrowser) vBox2.addLayout(hBox2DMap) # Settings for the 3D map line3DViewSettings = QFrame() #line3DViewSettings.setGeometry(QtCore.QRect(320, 150, 118, 3)) line3DViewSettings.setFrameShape(QFrame.HLine) line3DViewSettings.setFrameShadow(QFrame.Sunken) vBox2.addWidget(line3DViewSettings) label3DViewSettings = QLabel('3D view settings') vBox2.addWidget(label3DViewSettings) hBox3DMapSelection = QHBoxLayout() self.check3DMapSelection = QCheckBox( "Select elevation tiles automatically, otherwise") self.check3DMapSelection.setChecked(True) hBox3DMapSelection.addWidget(self.check3DMapSelection) self.text3DMapName = QLineEdit() self.text3DMapName.setText("Iceland.tif") hBox3DMapSelection.addWidget(self.text3DMapName) vBox2.addLayout(hBox3DMapSelection) hBox3D = QHBoxLayout() label3DMargin = QLabel('Margin') hBox3D.addWidget(label3DMargin) self.spinbox3DMargin = QSpinBox() self.spinbox3DMargin.setRange(50, 1000) self.spinbox3DMargin.setValue(100) self.spinbox3DMargin.setSingleStep(10) hBox3D.addWidget(self.spinbox3DMargin) labelSpace = QLabel(' ') hBox3D.addWidget(labelSpace) label3DElevationScale = QLabel('Elev. scale') hBox3D.addWidget(label3DElevationScale) self.spinbox3DElevationScale = QDoubleSpinBox() self.spinbox3DElevationScale.setRange(1, 50) self.spinbox3DElevationScale.setSingleStep(0.1) hBox3D.addWidget(self.spinbox3DElevationScale) hBox3D.addWidget(labelSpace) label3DOSMZoom = QLabel('Zoom') hBox3D.addWidget(label3DOSMZoom) self.spinbox3DOSMZoom = QSpinBox() self.spinbox3DOSMZoom.setRange(8, 15) self.spinbox3DOSMZoom.setValue(13) self.spinbox3DOSMZoom.setSingleStep(1) hBox3D.addWidget(self.spinbox3DOSMZoom) hBox3D.addWidget(labelSpace) self.check3DOSMInvert = QCheckBox("Invert") self.check3DOSMInvert.setChecked(False) hBox3D.addWidget(self.check3DOSMInvert) vBox2.addLayout(hBox3D) vBox_left.addLayout(vBox2) # 3rd stats tree lineTree = QFrame() lineTree.setFrameShape(QFrame.HLine) lineTree.setFrameShadow(QFrame.Sunken) vBox2.addWidget(lineTree) labelTree = QLabel('Track stats') vBox2.addWidget(labelTree) self.tree = QTreeView() self.tree.setSelectionBehavior(QAbstractItemView.SelectRows) self.treemodel = QtGui.QStandardItemModel() self.treemodel.setHorizontalHeaderLabels(['Name', 'Value']) self.tree.setModel(self.treemodel) self.tree.setUniformRowHeights(True) self.tree.setColumnWidth(0, 200) vBox_left.addWidget(self.tree) # 4th text, containing text messages/errors self.textWarningConsole = QTextEdit() self.textWarningConsole.setReadOnly(True) self.textWarningConsole.setFont(QtGui.QFont("Courier New", FONTSIZE)) self.textWarningConsole.clear() self.textWarningConsole.setMaximumHeight(50) vBox_left.addWidget(self.textWarningConsole) # I put "vBox_left" inside a widget and then the widget inside "hBox" # instead of just doing "hBox.addLayout(vBox_left) so I can set its # maximum width. vBox_left_widget = QWidget() vBox_left_widget.setLayout(vBox_left) vBox_left_widget.setMinimumWidth(400) vBox_left_widget.setMaximumWidth(500) hBox.addWidget(vBox_left_widget) # Vertical right column self.tab = QTabWidget() # Tab 1: Summary: elevation and speed tab1 = QWidget() # The tab layout vBox_tab = QVBoxLayout() vBox_tab.setSpacing(5) # Plot area self.plotEmbeddedElevationAndSpeed = EmbeddedPlot_ElevationSpeed( width=5, height=4, dpi=100) self.plotEmbeddedElevationAndSpeed.setMinimumWidth(800) # Add toolbar to the plot self.mpl_toolbar1 = NavigationToolbar( self.plotEmbeddedElevationAndSpeed, self.scatola) # Add widgets to the layout vBox_tab.addWidget(self.plotEmbeddedElevationAndSpeed) vBox_tab.addWidget(self.mpl_toolbar1) # Associate the layout to the tab tab1.setLayout(vBox_tab) # Tab 2: html 2D map tab2 = QWidget() # The tab layout vBox_tab = QVBoxLayout() vBox_tab.setSpacing(5) # Area self.map2d = QtWebEngineWidgets.QWebEngineView() # Add widgets to the layout vBox_tab.addWidget(self.map2d) # Associate the layout to the tab tab2.setLayout(vBox_tab) # Tab 3: 3D plot tab3 = QWidget() # The tab layout vBox_tab = QVBoxLayout() vBox_tab.setSpacing(5) # Area self.map3d = MayaviQWidget() # Add widgets to the layout vBox_tab.addWidget(self.map3d) # Associate the layout to the tab tab3.setLayout(vBox_tab) # Tab 4: Details tab4 = QWidget() # The tab layout vBox_tab = QVBoxLayout() vBox_tab.setSpacing(5) # Plot area self.plotEmbeddedDetails = EmbeddedPlot_Details(width=5, height=4, dpi=100) self.plotEmbeddedDetails.setMinimumWidth(800) # Add toolbar to the plot self.mpl_toolbar2 = NavigationToolbar(self.plotEmbeddedDetails, self.scatola) # Add widgets to the layout vBox_tab.addWidget(self.plotEmbeddedDetails) vBox_tab.addWidget(self.mpl_toolbar2) # Associate the layout to the tab tab4.setLayout(vBox_tab) # Associate tabs self.tab.addTab(tab1, "Summary") self.tab.addTab(tab2, "2D Map") self.tab.addTab(tab3, "3D Map") self.tab.addTab(tab4, "Details") hBox.addWidget(self.tab) # Setting hBox as main box self.scatola.setLayout(hBox) self.setCentralWidget(self.scatola) # Application settings self.setWindowTitle('TrackAnalyser') self.setWindowIcon((QtGui.QIcon('icons/app.png'))) self.setGeometry(100, 100, 1200, 700) self.show()
class PythonConsoleWidget(QDockWidget): """ original code pulled from: http://stackoverflow.com/questions/31380457/add-right-click-functionality-to-listwidget-in-pyqt4 http://stackoverflow.com/questions/20951660/creating-a-syntax-highlighter-in-pythonpyqt4 http://eli.thegreenplace.net/2011/04/01/sample-using-qscintilla-with-pyqt """ def __init__(self, parent): self.parent = parent super(PythonConsoleWidget, self).__init__('Python Console', parent=parent) # I think this works by accident in qt4/5 #super(QDockWidget, self).__init__('Python Console', parent=parent) #self.listMenu = QMenu() self.execute_python_button = QPushButton('Execute') self.execute_and_clear_python_button = QPushButton('Execute and Clear') if is_pygments and IS_SCINTILLA: #self.enter_data = QSyntaxHighlighting() self.enter_data = SimplePythonEditorWidget() else: self.enter_data = QTextEdit() font = QFont() font.setFamily('Courier') self.enter_data.setFont(font) self.setup_connections() self.layout() def layout(self): vbox = QVBoxLayout() hbox = QHBoxLayout() vbox.addWidget(self.enter_data) hbox.addWidget(self.execute_python_button) hbox.addWidget(self.execute_and_clear_python_button) vbox.addLayout(hbox) vbox_widget = QWidget() vbox_widget.setLayout(vbox) self.setWidget(vbox_widget) def setup_connections(self): self.execute_python_button.clicked.connect(self.on_execute_python_button) self.execute_and_clear_python_button.clicked.connect( self.on_execute_and_clear_python_button) #self.on_rig # TODO: enables the right click menu # messes up the previous right click menu #self.setContextMenuPolicy(QtCore.Qt.CustomContextMenu) #self.connect(self, QtCore.SIGNAL("customContextMenuRequested(QPoint)"), # self.listItemRightClicked) #properties = self.listMenu.addAction("Properties...") #select_all = self.listMenu.addAction("Select All") #copy = self.listMenu.addAction("Copy") #clear = self.listMenu.addAction("Clear...") #properties.triggered.connect(self.on_properties) #select_all.triggered.connect(self.on_select_all) #copy.triggered.connect(self.on_copy) #clear.triggered.connect(self.on_clear) #self.connect(properties, QtCore.SIGNAL("triggered()"), self.on_properties) #self.connect(select_all, QtCore.SIGNAL("triggered()"), self.on_select_all) #self.connect(copy, QtCore.SIGNAL("triggered()"), self.on_copy) # we have to create a QWidget to put the console vbox into vbox_widget because # self.setLayout(vbox) # is not supported in a QDockWidget def on_execute_and_clear_python_button(self): if self.parent is not None: self.parent._on_execute_python_button(clear=True) def on_execute_python_button(self): if self.parent is not None: self.parent._on_execute_python_button(clear=False) def listItemRightClicked(self, QPos): """ TDOO: not done... """ return
class ZhuNoteForm(QWidget): def __init__(self, path=None): QWidget.__init__(self) self.initUI(path) def initUI(self, path): pathLabel = QLabel('Path') filenameLabel = QLabel('Filename') timeLabel = QLabel('Time') titleLabel = QLabel('Title') keywordLabel = QLabel('Keyword') figureLabel = QLabel('Figure') htmlLabel = QLabel('HTML') bodyLabel = QLabel('Body') self.pathEdit = QLineEdit(path) self.pathEdit.setReadOnly(True) self.filenameEdit = QLineEdit() self.timeEdit = QLineEdit() self.titleEdit = QLineEdit() self.keywordEdit = QLineEdit() self.figureEdit = QLineEdit() self.htmlEdit = QLineEdit() self.bodyEdit = QTextEdit() # If more than one keyword, delimit with comma. # Same for figure and html filenames. #btnSave = QPushButton('Save') #btnSave.setToolTip('Save script to file') #btnSave.clicked.connect(self.saveFile) # Replace save button with keyboard shortcut # Save move hand from keyboard to mouse. grid = QGridLayout() grid.setSpacing(5) row = 0 grid.addWidget(pathLabel, row, 0) grid.addWidget(self.pathEdit, row, 1) row += 1 grid.addWidget(filenameLabel, row, 0) grid.addWidget(self.filenameEdit, row, 1) row += 1 grid.addWidget(figureLabel, row, 0) grid.addWidget(self.figureEdit, row, 1) row += 1 grid.addWidget(htmlLabel, row, 0) grid.addWidget(self.htmlEdit, row, 1) row += 1 grid.addWidget(timeLabel, row, 0) grid.addWidget(self.timeEdit, row, 1) row += 1 grid.addWidget(titleLabel, row, 0) grid.addWidget(self.titleEdit, row, 1) row += 1 grid.addWidget(keywordLabel, row, 0) grid.addWidget(self.keywordEdit, row, 1) row += 1 grid.addWidget(bodyLabel, row, 0) grid.addWidget(self.bodyEdit, row, 1, 6, 1) #grid.addWidget(btnSave, 11, 1) self.actOpen = QAction('Open', self) self.actOpen.setShortcut('Ctrl+O') self.actOpen.triggered.connect(self.openFile) self.filenameEdit.addAction(self.actOpen) self.actSave = QAction('Save', self) self.actSave.setShortcut('Ctrl+S') self.actSave.triggered.connect(self.saveFile) self.bodyEdit.addAction(self.actSave) self.setLayout(grid) #self.setGeometry(300, 300, 600, 400) self.setWindowTitle('Form - ZhuNote') #self.show() def setFont(self, font): #font = self.bodyEdit.font() # current font #font = QFont() # default font self.pathEdit.setFont(font) self.filenameEdit.setFont(font) self.timeEdit.setFont(font) self.titleEdit.setFont(font) self.keywordEdit.setFont(font) self.figureEdit.setFont(font) self.htmlEdit.setFont(font) self.bodyEdit.setFont(font) def clear(self): self.filenameEdit.clear() self.timeEdit.clear() self.titleEdit.clear() self.keywordEdit.clear() self.figureEdit.clear() self.htmlEdit.clear() self.bodyEdit.clear() def viewDict(self, dictNote): self.filenameEdit.setText(dictNote['Filename']) self.timeEdit.setText(dictNote['Time']) self.titleEdit.setText(dictNote['Title']) self.keywordEdit.setText(dictNote['Keyword']) self.figureEdit.setText(dictNote['Figure']) self.htmlEdit.setText(dictNote['HTML']) self.bodyEdit.setText(dictNote['Body']) def openFile(self): path = self.pathEdit.text() fn = self.filenameEdit.text() ffn = os.path.join(path, fn) with open(ffn, 'rb') as f: dictNote = pickle.load(f) self.viewDict(dictNote) def saveFile(self): #fn = timeStr + '.txt' # Use title as filename to overwrite existing note file. base = self.titleEdit.text().replace(' ', '_') txtfn = base + '.txt' pklfn = base + '.pkl' path = self.pathEdit.text() timeStr = datetime.now().strftime('%Y-%m-%d-%H-%M-%S') self.filenameEdit.setText(pklfn) self.timeEdit.setText(timeStr) textSum = '' text = 'Filename: ' + txtfn + '\n' textSum += text text = 'Time: ' + timeStr + '\n' textSum += text text = 'Title: ' + self.titleEdit.text() + '\n' textSum += text text = 'Keyword: ' + self.keywordEdit.text() + '\n' textSum += text text = 'Figure: ' + self.figureEdit.text() + '\n' textSum += text text = 'HTML: ' + self.htmlEdit.text() + '\n' textSum += text text = 'Body: ' + self.bodyEdit.toPlainText() + '\n' textSum += text dictNote = {} dictNote['Filename'] = pklfn dictNote['Time'] = timeStr dictNote['Title'] = self.titleEdit.text() dictNote['Keyword'] = self.keywordEdit.text() dictNote['Figure'] = self.figureEdit.text() dictNote['HTML'] = self.htmlEdit.text() dictNote['Body'] = self.bodyEdit.toPlainText() txtffn = os.path.join(path, txtfn) pklffn = os.path.join(path, pklfn) # Check if file exist if os.path.isfile(txtffn): choice = QMessageBox.question( self, 'Warning', "File exists. Do you want overwrite?", QMessageBox.Yes | QMessageBox.No, QMessageBox.Yes) if choice == QMessageBox.Yes: self.writeFile(textSum, txtffn, dictNote, pklffn) else: print("Change title and re-save.") return 1 else: self.writeFile(textSum, txtffn, dictNote, pklffn) return 0 @staticmethod def writeFile(textSum, txtfn, dictNote, pklfn): """ input are full filename (with absolute path) """ with open(txtfn, 'w', encoding='utf-8') as f: f.write(textSum) with open(pklfn, 'wb') as f: pickle.dump(dictNote, f, -1)
class TextEditor(QDialog): """Array Editor Dialog""" def __init__(self, text, title='', font=None, parent=None, readonly=False, size=(400, 300)): QDialog.__init__(self, parent) # Destroying the C++ object right after closing the dialog box, # otherwise it may be garbage-collected in another QThread # (e.g. the editor's analysis thread in Spyder), thus leading to # a segmentation fault on UNIX or an application crash on Windows self.setAttribute(Qt.WA_DeleteOnClose) self.text = None # Display text as unicode if it comes as bytes, so users see # its right representation if is_binary_string(text): self.is_binary = True text = to_text_string(text, 'utf8') else: self.is_binary = False self.layout = QVBoxLayout() self.setLayout(self.layout) # Text edit self.edit = QTextEdit(parent) self.edit.textChanged.connect(self.text_changed) self.edit.setReadOnly(readonly) self.edit.setPlainText(text) if font is None: font = get_font() self.edit.setFont(font) self.layout.addWidget(self.edit) # Buttons configuration buttons = QDialogButtonBox.Ok if not readonly: buttons = buttons | QDialogButtonBox.Cancel bbox = QDialogButtonBox(buttons) bbox.accepted.connect(self.accept) bbox.rejected.connect(self.reject) self.layout.addWidget(bbox) # Make the dialog act as a window self.setWindowFlags(Qt.Window) self.setWindowIcon(ima.icon('edit')) self.setWindowTitle(_("Text editor") + \ "%s" % (" - "+str(title) if str(title) else "")) self.resize(size[0], size[1]) def text_changed(self): """Text has changed""" # Save text as bytes, if it was initially bytes if self.is_binary: self.text = to_binary_string(self.edit.toPlainText(), 'utf8') else: self.text = to_text_string(self.edit.toPlainText()) def get_value(self): """Return modified text""" # It is import to avoid accessing Qt C++ object as it has probably # already been destroyed, due to the Qt.WA_DeleteOnClose attribute return self.text def setup_and_check(self, value): """Verify if TextEditor is able to display strings passed to it.""" try: to_text_string(value, 'utf8') return True except: return False
class TextEditor(QDialog): """Array Editor Dialog""" def __init__(self, text, title='', font=None, parent=None, readonly=False, size=(400, 300)): QDialog.__init__(self, parent) # Destroying the C++ object right after closing the dialog box, # otherwise it may be garbage-collected in another QThread # (e.g. the editor's analysis thread in Spyder), thus leading to # a segmentation fault on UNIX or an application crash on Windows self.setAttribute(Qt.WA_DeleteOnClose) self.text = None self.btn_save_and_close = None # Display text as unicode if it comes as bytes, so users see # its right representation if is_binary_string(text): self.is_binary = True text = to_text_string(text, 'utf8') else: self.is_binary = False self.layout = QVBoxLayout() self.setLayout(self.layout) # Text edit self.edit = QTextEdit(parent) self.edit.setReadOnly(readonly) self.edit.textChanged.connect(self.text_changed) self.edit.setPlainText(text) if font is None: font = get_font() self.edit.setFont(font) self.layout.addWidget(self.edit) # Buttons configuration btn_layout = QHBoxLayout() btn_layout.addStretch() if not readonly: self.btn_save_and_close = QPushButton(_('Save and Close')) self.btn_save_and_close.setDisabled(True) self.btn_save_and_close.clicked.connect(self.accept) btn_layout.addWidget(self.btn_save_and_close) self.btn_close = QPushButton(_('Close')) self.btn_close.setAutoDefault(True) self.btn_close.setDefault(True) self.btn_close.clicked.connect(self.reject) btn_layout.addWidget(self.btn_close) self.layout.addLayout(btn_layout) # Make the dialog act as a window self.setWindowFlags(Qt.Window) self.setWindowIcon(ima.icon('edit')) self.setWindowTitle(_("Text editor") + \ "%s" % (" - "+str(title) if str(title) else "")) self.resize(size[0], size[1]) @Slot() def text_changed(self): """Text has changed""" # Save text as bytes, if it was initially bytes if self.is_binary: self.text = to_binary_string(self.edit.toPlainText(), 'utf8') else: self.text = to_text_string(self.edit.toPlainText()) if self.btn_save_and_close: self.btn_save_and_close.setEnabled(True) self.btn_save_and_close.setAutoDefault(True) self.btn_save_and_close.setDefault(True) def get_value(self): """Return modified text""" # It is import to avoid accessing Qt C++ object as it has probably # already been destroyed, due to the Qt.WA_DeleteOnClose attribute return self.text def setup_and_check(self, value): """Verify if TextEditor is able to display strings passed to it.""" try: to_text_string(value, 'utf8') return True except: return False