def __create_menu(self): self.menuMain = MenuMain(self, self.settings) self.Bind(wx.EVT_MENU, self.__on_new, self.menuMain.new) self.Bind(wx.EVT_MENU, self.__on_open, self.menuMain.open) self.Bind(wx.EVT_MENU, self.__on_merge, self.menuMain.merge) self.Bind(wx.EVT_MENU_RANGE, self.__on_file_history, id=wx.ID_FILE1, id2=wx.ID_FILE9) self.Bind(wx.EVT_MENU, self.__on_save, self.menuMain.save) self.Bind(wx.EVT_MENU, self.__on_export_scan, self.menuMain.exportScan) self.Bind(wx.EVT_MENU, self.__on_export_image, self.menuMain.exportImage) self.Bind(wx.EVT_MENU, self.__on_export_image_seq, self.menuMain.exportSeq) self.Bind(wx.EVT_MENU, self.__on_export_geo, self.menuMain.exportGeo) self.Bind(wx.EVT_MENU, self.__on_export_track, self.menuMain.exportTrack) self.Bind(wx.EVT_MENU, self.__on_page, self.menuMain.page) self.Bind(wx.EVT_MENU, self.__on_preview, self.menuMain.preview) self.Bind(wx.EVT_MENU, self.__on_print, self.menuMain.printer) self.Bind(wx.EVT_MENU, self.__on_properties, self.menuMain.properties) self.Bind(wx.EVT_MENU, self.__on_exit, self.menuMain.close) self.Bind(wx.EVT_MENU, self.__on_pref, self.menuMain.pref) self.Bind(wx.EVT_MENU, self.__on_adv_pref, self.menuMain.advPref) self.Bind(wx.EVT_MENU, self.__on_formatting, self.menuMain.formatting) self.Bind(wx.EVT_MENU, self.__on_devices_rtl, self.menuMain.devicesRtl) self.Bind(wx.EVT_MENU, self.__on_devices_gps, self.menuMain.devicesGps) self.Bind(wx.EVT_MENU, self.__on_reset, self.menuMain.reset) self.Bind(wx.EVT_MENU, self.__on_clear_select, self.menuMain.clearSelect) self.Bind(wx.EVT_MENU, self.__on_show_measure, self.menuMain.showMeasure) self.Bind(wx.EVT_MENU, self.__on_start, self.menuMain.start) self.Bind(wx.EVT_MENU, self.__on_continue, self.menuMain.cont) self.Bind(wx.EVT_MENU, self.__on_stop, self.menuMain.stop) self.Bind(wx.EVT_MENU, self.__on_stop_end, self.menuMain.stopEnd) self.Bind(wx.EVT_MENU, self.__on_compare, self.menuMain.compare) self.Bind(wx.EVT_MENU, self.__on_smooth, self.menuMain.smooth) self.Bind(wx.EVT_MENU, self.__on_cal, self.menuMain.cal) self.Bind(wx.EVT_MENU, self.__on_gearth, self.menuMain.gearth) self.Bind(wx.EVT_MENU, self.__on_gmaps, self.menuMain.gmaps) self.Bind(wx.EVT_MENU, self.__on_sats, self.menuMain.sats) self.Bind(wx.EVT_MENU, self.__on_loc_clear, self.menuMain.locClear) self.Bind(wx.EVT_MENU, self.__on_log, self.menuMain.log) self.Bind(wx.EVT_MENU, self.__on_help, self.menuMain.helpLink) self.Bind(wx.EVT_MENU, self.__on_update, self.menuMain.update) self.Bind(wx.EVT_MENU, self.__on_sys_info, self.menuMain.sys) self.Bind(wx.EVT_MENU, self.__on_about, self.menuMain.about) idF1 = wx.wx.NewId() self.Bind(wx.EVT_MENU, self.__on_help, id=idF1) accelTable = wx.AcceleratorTable([(wx.ACCEL_NORMAL, wx.WXK_F1, idF1)]) self.SetAcceleratorTable(accelTable) self.Bind(wx.EVT_MENU_HIGHLIGHT, self.__on_menu_highlight) self.SetMenuBar(self.menuMain.menuBar)
class FrameMain(wx.Frame): def __init__(self, title, pool): self.pool = pool self.lock = threading.Lock() self.sdr = None self.threadScan = None self.threadUpdate = None self.threadLocation = None self.serverKml = None self.isNewScan = True self.isScanning = False self.stopAtEnd = False self.stopScan = False self.dlgCal = None self.dlgSats = None self.dlgLog = None self.menuMain = None self.menuPopup = None self.graph = None self.toolbar = None self.canvas = None self.buttonStart = None self.buttonStop = None self.controlGain = None self.choiceMode = None self.choiceDwell = None self.choiceNfft = None self.spinCtrlStart = None self.spinCtrlStop = None self.choiceDisplay = None self.spectrum = OrderedDict() self.scanInfo = ScanInfo() self.locations = OrderedDict() self.lastLocation = [None] * 4 self.isSaved = True self.settings = Settings() self.devicesRtl = get_devices_rtl(self.settings.devicesRtl) self.settings.indexRtl = limit(self.settings.indexRtl, 0, len(self.devicesRtl) - 1) self.filename = "" self.oldCal = 0 self.remoteControl = None self.log = Log() self.pageConfig = wx.PageSetupDialogData() self.pageConfig.GetPrintData().SetOrientation(wx.LANDSCAPE) self.pageConfig.SetMarginTopLeft((20, 20)) self.pageConfig.SetMarginBottomRight((20, 20)) self.printConfig = wx.PrintDialogData(self.pageConfig.GetPrintData()) self.printConfig.EnableSelection(False) self.printConfig.EnablePageNumbers(False) wx.Frame.__init__(self, None, title=title) self.timerGpsRetry = wx.Timer(self) self.Bind(wx.EVT_TIMER, self.__on_gps_retry, self.timerGpsRetry) self.Bind(wx.EVT_CLOSE, self.__on_exit) self.status = Statusbar(self, self.log) self.status.set_info(title) self.SetStatusBar(self.status) add_colours() self.__create_widgets() self.__create_menu() self.__create_popup_menu() self.__set_control_state(True) self.Show() displaySize = wx.DisplaySize() toolbarSize = self.toolbar.GetBestSize() self.SetClientSize((toolbarSize[0] + 10, displaySize[1] / 2)) self.SetMinSize((displaySize[0] / 4, displaySize[1] / 4)) self.Connect(-1, -1, EVENT_THREAD, self.__on_event) self.SetDropTarget(DropTarget(self)) self.SetIcon(load_icon("rtlsdr_scan")) self.steps = 0 self.stepsTotal = 0 self.__start_gps() self.__start_kml() def __create_widgets(self): self.remoteControl = RemoteControl() self.graph = PanelGraph(self, self, self.settings, self.status, self.remoteControl) self.toolbar = wx.Panel(self) self.buttonStart = MultiButton(self.toolbar, ["Start", "Continue"], ["Start new scan", "Continue scanning"]) self.buttonStart.SetSelected(self.settings.startOption) self.buttonStop = MultiButton(self.toolbar, ["Stop", "Stop at end"], ["Stop scan", "Stop scan at end"]) self.buttonStop.SetSelected(self.settings.stopOption) self.Bind(wx.EVT_BUTTON, self.__on_start, self.buttonStart) self.Bind(wx.EVT_BUTTON, self.__on_stop, self.buttonStop) textRange = wx.StaticText(self.toolbar, label="Range (MHz)", style=wx.ALIGN_CENTER) textStart = wx.StaticText(self.toolbar, label="Start") textStop = wx.StaticText(self.toolbar, label="Stop") self.spinCtrlStart = wx.SpinCtrl(self.toolbar) self.spinCtrlStop = wx.SpinCtrl(self.toolbar) self.spinCtrlStart.SetToolTipString("Start frequency") self.spinCtrlStop.SetToolTipString("Stop frequency") self.spinCtrlStart.SetRange(F_MIN, F_MAX - 1) self.spinCtrlStop.SetRange(F_MIN + 1, F_MAX) self.Bind(wx.EVT_SPINCTRL, self.__on_spin, self.spinCtrlStart) self.Bind(wx.EVT_SPINCTRL, self.__on_spin, self.spinCtrlStop) textGain = wx.StaticText(self.toolbar, label="Gain (dB)") self.controlGain = wx.Choice(self.toolbar, choices=[""]) textMode = wx.StaticText(self.toolbar, label="Mode") self.choiceMode = wx.Choice(self.toolbar, choices=MODE[::2]) self.choiceMode.SetToolTipString("Scanning mode") textDwell = wx.StaticText(self.toolbar, label="Dwell") self.choiceDwell = wx.Choice(self.toolbar, choices=DWELL[::2]) self.choiceDwell.SetToolTipString("Scan time per step") textNfft = wx.StaticText(self.toolbar, label="FFT size") self.choiceNfft = wx.Choice(self.toolbar, choices=map(str, NFFT)) self.choiceNfft.SetToolTipString("Higher values for greater" "precision") textDisplay = wx.StaticText(self.toolbar, label="Display") self.choiceDisplay = wx.Choice(self.toolbar, choices=DISPLAY[::2]) self.Bind(wx.EVT_CHOICE, self.__on_choice, self.choiceDisplay) self.choiceDisplay.SetToolTipString("Spectrogram available in" "continuous mode") grid = wx.GridBagSizer(5, 5) grid.Add(self.buttonStart, pos=(0, 0), span=(3, 1), flag=wx.ALIGN_CENTER) grid.Add(self.buttonStop, pos=(0, 1), span=(3, 1), flag=wx.ALIGN_CENTER) grid.Add((20, 1), pos=(0, 2)) grid.Add(textRange, pos=(0, 3), span=(1, 4), flag=wx.ALIGN_CENTER) grid.Add(textStart, pos=(1, 3), flag=wx.ALIGN_CENTER) grid.Add(self.spinCtrlStart, pos=(1, 4)) grid.Add(textStop, pos=(1, 5), flag=wx.ALIGN_CENTER) grid.Add(self.spinCtrlStop, pos=(1, 6)) grid.Add(textGain, pos=(0, 7), flag=wx.ALIGN_CENTER) grid.Add(self.controlGain, pos=(1, 7), flag=wx.ALIGN_CENTER) grid.Add((20, 1), pos=(0, 8)) grid.Add(textMode, pos=(0, 9), flag=wx.ALIGN_CENTER) grid.Add(self.choiceMode, pos=(1, 9), flag=wx.ALIGN_CENTER) grid.Add(textDwell, pos=(0, 10), flag=wx.ALIGN_CENTER) grid.Add(self.choiceDwell, pos=(1, 10), flag=wx.ALIGN_CENTER) grid.Add(textNfft, pos=(0, 11), flag=wx.ALIGN_CENTER) grid.Add(self.choiceNfft, pos=(1, 11), flag=wx.ALIGN_CENTER) grid.Add((20, 1), pos=(0, 12)) grid.Add(textDisplay, pos=(0, 13), flag=wx.ALIGN_CENTER) grid.Add(self.choiceDisplay, pos=(1, 13), flag=wx.ALIGN_CENTER) self.__set_controls() self.__set_gain_control() self.toolbar.SetSizer(grid) self.toolbar.Layout() sizer = wx.BoxSizer(wx.VERTICAL) sizer.Add(self.graph, 1, wx.EXPAND) sizer.Add(self.toolbar, 0, wx.EXPAND) self.SetSizer(sizer) self.Layout() def __create_menu(self): self.menuMain = MenuMain(self, self.settings) self.Bind(wx.EVT_MENU, self.__on_new, self.menuMain.new) self.Bind(wx.EVT_MENU, self.__on_open, self.menuMain.open) self.Bind(wx.EVT_MENU, self.__on_merge, self.menuMain.merge) self.Bind(wx.EVT_MENU_RANGE, self.__on_file_history, id=wx.ID_FILE1, id2=wx.ID_FILE9) self.Bind(wx.EVT_MENU, self.__on_save, self.menuMain.save) self.Bind(wx.EVT_MENU, self.__on_export_scan, self.menuMain.exportScan) self.Bind(wx.EVT_MENU, self.__on_export_image, self.menuMain.exportImage) self.Bind(wx.EVT_MENU, self.__on_export_image_seq, self.menuMain.exportSeq) self.Bind(wx.EVT_MENU, self.__on_export_geo, self.menuMain.exportGeo) self.Bind(wx.EVT_MENU, self.__on_export_track, self.menuMain.exportTrack) self.Bind(wx.EVT_MENU, self.__on_page, self.menuMain.page) self.Bind(wx.EVT_MENU, self.__on_preview, self.menuMain.preview) self.Bind(wx.EVT_MENU, self.__on_print, self.menuMain.printer) self.Bind(wx.EVT_MENU, self.__on_properties, self.menuMain.properties) self.Bind(wx.EVT_MENU, self.__on_exit, self.menuMain.close) self.Bind(wx.EVT_MENU, self.__on_pref, self.menuMain.pref) self.Bind(wx.EVT_MENU, self.__on_adv_pref, self.menuMain.advPref) self.Bind(wx.EVT_MENU, self.__on_formatting, self.menuMain.formatting) self.Bind(wx.EVT_MENU, self.__on_devices_rtl, self.menuMain.devicesRtl) self.Bind(wx.EVT_MENU, self.__on_devices_gps, self.menuMain.devicesGps) self.Bind(wx.EVT_MENU, self.__on_reset, self.menuMain.reset) self.Bind(wx.EVT_MENU, self.__on_clear_select, self.menuMain.clearSelect) self.Bind(wx.EVT_MENU, self.__on_show_measure, self.menuMain.showMeasure) self.Bind(wx.EVT_MENU, self.__on_start, self.menuMain.start) self.Bind(wx.EVT_MENU, self.__on_continue, self.menuMain.cont) self.Bind(wx.EVT_MENU, self.__on_stop, self.menuMain.stop) self.Bind(wx.EVT_MENU, self.__on_stop_end, self.menuMain.stopEnd) self.Bind(wx.EVT_MENU, self.__on_compare, self.menuMain.compare) self.Bind(wx.EVT_MENU, self.__on_smooth, self.menuMain.smooth) self.Bind(wx.EVT_MENU, self.__on_cal, self.menuMain.cal) self.Bind(wx.EVT_MENU, self.__on_kml, self.menuMain.kml) self.Bind(wx.EVT_MENU, self.__on_sats, self.menuMain.sats) self.Bind(wx.EVT_MENU, self.__on_loc_clear, self.menuMain.locClear) self.Bind(wx.EVT_MENU, self.__on_log, self.menuMain.log) self.Bind(wx.EVT_MENU, self.__on_help, self.menuMain.helpLink) self.Bind(wx.EVT_MENU, self.__on_update, self.menuMain.update) self.Bind(wx.EVT_MENU, self.__on_sys_info, self.menuMain.sys) self.Bind(wx.EVT_MENU, self.__on_about, self.menuMain.about) idF1 = wx.wx.NewId() self.Bind(wx.EVT_MENU, self.__on_help, id=idF1) accelTable = wx.AcceleratorTable([(wx.ACCEL_NORMAL, wx.WXK_F1, idF1)]) self.SetAcceleratorTable(accelTable) self.Bind(wx.EVT_MENU_HIGHLIGHT, self.__on_menu_highlight) self.SetMenuBar(self.menuMain.menuBar) def __create_popup_menu(self): self.menuPopup = PopMenuMain(self.settings) self.Bind(wx.EVT_MENU, self.__on_start, self.menuPopup.start) self.Bind(wx.EVT_MENU, self.__on_continue, self.menuPopup.cont) self.Bind(wx.EVT_MENU, self.__on_stop, self.menuPopup.stop) self.Bind(wx.EVT_MENU, self.__on_stop_end, self.menuPopup.stopEnd) self.Bind(wx.EVT_MENU, self.__on_range_lim, self.menuPopup.rangeLim) self.Bind(wx.EVT_MENU, self.__on_points_lim, self.menuPopup.pointsLim) self.Bind(wx.EVT_MENU, self.__on_clear_select, self.menuPopup.clearSelect) self.Bind(wx.EVT_MENU, self.__on_show_measure, self.menuPopup.showMeasure) self.Bind(wx.EVT_CONTEXT_MENU, self.__on_popup_menu) def __on_menu_highlight(self, event): item = self.GetMenuBar().FindItemById(event.GetId()) if item is not None: help = item.GetHelp() else: help = "" self.status.set_general(help, level=None) def __on_popup_menu(self, event): if not isinstance(event.GetEventObject(), NavigationToolbar): pos = event.GetPosition() pos = self.ScreenToClient(pos) self.PopupMenu(self.menuPopup.menu, pos) def __on_new(self, _event): if self.__save_warn(Warn.NEW): return True self.spectrum.clear() self.locations.clear() self.__saved(True) self.__set_plot(self.spectrum, False) self.graph.clear_selection() self.__set_control_state(True) return False def __on_open(self, _event): if self.__save_warn(Warn.OPEN): return dlg = wx.FileDialog( self, "Open a scan", self.settings.dirScans, self.filename, File.get_type_filters(File.Types.SAVE), wx.OPEN ) if dlg.ShowModal() == wx.ID_OK: self.open(dlg.GetDirectory(), dlg.GetFilename()) dlg.Destroy() def __on_merge(self, _event): if self.__save_warn(Warn.MERGE): return dlg = wx.FileDialog( self, "Merge a scan", self.settings.dirScans, self.filename, File.get_type_filters(File.Types.SAVE), wx.OPEN ) if dlg.ShowModal() == wx.ID_OK: self.__merge(dlg.GetDirectory(), dlg.GetFilename()) dlg.Destroy() def __on_file_history(self, event): selection = event.GetId() - wx.ID_FILE1 path = self.settings.fileHistory.GetHistoryFile(selection) self.settings.fileHistory.AddFileToHistory(path) dirname, filename = os.path.split(path) self.open(dirname, filename) def __on_save(self, _event): dlg = wx.FileDialog( self, "Save a scan", self.settings.dirScans, self.filename, File.get_type_filters(File.Types.SAVE), wx.SAVE | wx.OVERWRITE_PROMPT, ) if dlg.ShowModal() == wx.ID_OK: self.status.set_general("Saving...") fileName = dlg.GetFilename() dirName = dlg.GetDirectory() self.filename = os.path.splitext(fileName)[0] self.settings.dirScans = dirName fileName = extension_add(fileName, dlg.GetFilterIndex(), File.Types.SAVE) fullName = os.path.join(dirName, fileName) save_plot(fullName, self.scanInfo, self.spectrum, self.locations) self.__saved(True) self.status.set_general("Finished") self.settings.fileHistory.AddFileToHistory(fullName) dlg.Destroy() def __on_export_scan(self, _event): dlg = wx.FileDialog( self, "Export a scan", self.settings.dirExport, self.filename, File.get_type_filters(), wx.SAVE | wx.OVERWRITE_PROMPT, ) if dlg.ShowModal() == wx.ID_OK: self.status.set_general("Exporting...") fileName = dlg.GetFilename() dirName = dlg.GetDirectory() self.settings.dirExport = dirName fileName = extension_add(fileName, dlg.GetFilterIndex(), File.Types.PLOT) fullName = os.path.join(dirName, fileName) export_plot(fullName, dlg.GetFilterIndex(), self.spectrum) self.status.set_general("Finished") dlg.Destroy() def __on_export_image(self, _event): dlgFile = wx.FileDialog( self, "Export image to file", self.settings.dirExport, self.filename, File.get_type_filters(File.Types.IMAGE), wx.SAVE | wx.OVERWRITE_PROMPT, ) dlgFile.SetFilterIndex(File.ImageType.PNG) if dlgFile.ShowModal() == wx.ID_OK: dlgImg = DialogImageSize(self, self.settings) if dlgImg.ShowModal() != wx.ID_OK: dlgFile.Destroy() return self.status.set_general("Exporting...") fileName = dlgFile.GetFilename() dirName = dlgFile.GetDirectory() self.settings.dirExport = dirName fileName = extension_add(fileName, dlgFile.GetFilterIndex(), File.Types.IMAGE) fullName = os.path.join(dirName, fileName) exportType = dlgFile.GetFilterIndex() export_image(fullName, exportType, self.graph.get_figure(), self.settings) self.status.set_general("Finished") dlgFile.Destroy() def __on_export_image_seq(self, _event): dlgSeq = DialogExportSeq(self, self.spectrum, self.settings) dlgSeq.ShowModal() dlgSeq.Destroy() def __on_export_geo(self, _event): dlgGeo = DialogExportGeo(self, self.spectrum, self.locations, self.settings) if dlgGeo.ShowModal() == wx.ID_OK: self.status.set_general("Exporting...") extent = dlgGeo.get_extent() dlgFile = wx.FileDialog( self, "Export map to file", self.settings.dirExport, self.filename, File.get_type_filters(File.Types.GEO), wx.SAVE | wx.OVERWRITE_PROMPT, ) dlgFile.SetFilterIndex(File.GeoType.KMZ) if dlgFile.ShowModal() == wx.ID_OK: fileName = dlgFile.GetFilename() dirName = dlgFile.GetDirectory() self.settings.dirExport = dirName fileName = extension_add(fileName, dlgFile.GetFilterIndex(), File.Types.GEO) fullName = os.path.join(dirName, fileName) exportType = dlgFile.GetFilterIndex() image = None xyz = None if exportType == File.GeoType.CSV: xyz = dlgGeo.get_xyz() else: image = dlgGeo.get_image() export_map(fullName, exportType, extent, image, xyz) self.status.set_general("Finished") dlgFile.Destroy() dlgGeo.Destroy() def __on_export_track(self, _event): dlg = wx.FileDialog( self, "Export GPS to file", self.settings.dirExport, self.filename, File.get_type_filters(File.Types.TRACK), wx.SAVE | wx.OVERWRITE_PROMPT, ) if dlg.ShowModal() == wx.ID_OK: self.status.set_general("Exporting...") fileName = dlg.GetFilename() dirName = dlg.GetDirectory() self.settings.dirExport = dirName fileName = extension_add(fileName, dlg.GetFilterIndex(), File.Types.TRACK) fullName = os.path.join(dirName, fileName) export_gpx(fullName, self.locations, self.GetName()) self.status.set_general("Finished") dlg.Destroy() def __on_page(self, _event): dlg = wx.PageSetupDialog(self, self.pageConfig) if dlg.ShowModal() == wx.ID_OK: self.pageConfig = wx.PageSetupDialogData(dlg.GetPageSetupDialogData()) self.printConfig.SetPrintData(self.pageConfig.GetPrintData()) dlg.Destroy() def __on_preview(self, _event): printout = PrintOut(self.graph, self.filename, self.pageConfig) printoutPrinting = PrintOut(self.graph, self.filename, self.pageConfig) preview = wx.PrintPreview(printout, printoutPrinting, self.printConfig) frame = wx.PreviewFrame(preview, self, "Print Preview") frame.Initialize() frame.SetSize(self.GetSize()) frame.Show(True) def __on_print(self, _event): printer = wx.Printer(self.printConfig) printout = PrintOut(self.graph, self.filename, self.pageConfig) if printer.Print(self, printout, True): self.printConfig = wx.PrintDialogData(printer.GetPrintDialogData()) self.pageConfig.SetPrintData(self.printConfig.GetPrintData()) def __on_properties(self, _event): if len(self.spectrum) > 0: self.scanInfo.timeFirst = min(self.spectrum) self.scanInfo.timeLast = max(self.spectrum) dlg = DialogProperties(self, self.scanInfo) dlg.ShowModal() dlg.Destroy() def __on_exit(self, _event): self.Unbind(wx.EVT_CLOSE) if self.__save_warn(Warn.EXIT): self.Bind(wx.EVT_CLOSE, self.__on_exit) return self.__scan_stop(False) self.__stop_gps(False) self.__stop_kml() self.__get_controls() self.settings.devicesRtl = self.devicesRtl self.settings.save() self.Destroy() def __on_pref(self, _event): self.__get_controls() dlg = DialogPrefs(self, self.settings) if dlg.ShowModal() == wx.ID_OK: self.graph.create_plot() self.__set_control_state(True) self.__set_controls() dlg.Destroy() def __on_adv_pref(self, _event): dlg = DialogAdvPrefs(self, self.settings) if dlg.ShowModal() == wx.ID_OK: self.__set_control_state(True) dlg.Destroy() def __on_formatting(self, _event): dlg = DialogFormatting(self, self.settings) if dlg.ShowModal() == wx.ID_OK: self.__set_control_state(True) self.graph.update_measure() self.graph.redraw_plot() dlg.Destroy() def __on_devices_rtl(self, _event): self.__get_controls() self.devicesRtl = self.__refresh_devices() dlg = DialogDevicesRTL(self, self.devicesRtl, self.settings) if dlg.ShowModal() == wx.ID_OK: self.devicesRtl = dlg.get_devices() self.settings.indexRtl = dlg.get_index() self.__set_gain_control() self.__set_control_state(True) self.__set_controls() dlg.Destroy() def __on_devices_gps(self, _event): self.__stop_gps() self.status.set_gps("GPS Stopped") dlg = DialogDevicesGPS(self, self.settings) dlg.ShowModal() dlg.Destroy() self.__start_gps() def __on_reset(self, _event): dlg = wx.MessageDialog( self, "Reset all settings to the default values\n" "(cannot be undone)?", "Reset Settings", wx.YES_NO | wx.ICON_QUESTION, ) if dlg.ShowModal() == wx.ID_YES: self.devicesRtl = [] self.settings.reset() self.__set_controls() self.graph.create_plot() dlg.Destroy() def __on_compare(self, _event): dlg = DialogCompare(self, self.settings, self.filename) dlg.Show() def __on_smooth(self, _event): dlg = DialogSmooth(self, self.spectrum, self.settings) if dlg.ShowModal() == wx.ID_OK: saved = self.isSaved self.isSaved = False if not self.__on_new(None): self.spectrum.clear() spectrum = dlg.get_spectrum() self.spectrum.update(OrderedDict(sorted(spectrum.items()))) self.__set_plot(self.spectrum, False) self.graph.update_measure() self.graph.redraw_plot() self.__saved(False) else: self.__saved(saved) def __on_clear_select(self, _event): self.graph.clear_selection() def __on_show_measure(self, event): show = event.Checked() self.menuMain.showMeasure.Check(show) self.menuPopup.showMeasure.Check(show) self.settings.showMeasure = show self.graph.show_measure_table(show) self.Layout() def __on_cal(self, _event): self.dlgCal = DialogAutoCal(self, self.settings.calFreq, self.__auto_cal) self.dlgCal.ShowModal() def __on_kml(self, _event): tempPath = tempfile.mkdtemp() tempFile = os.path.join(tempPath, "RTLSDRScannerLink.kml") handle = open(tempFile, "wb") handle.write( '<?xml version="1.0" encoding="UTF-8"?>\n' '<kml xmlns="http://www.opengis.net/kml/2.2">\n' "\t<NetworkLink>\n" "\t\t<name>{}</name>\n" "\t\t<flyToView>1</flyToView>\n" "\t\t<open>1</open>\n" "\t\t<Link>\n" "\t\t\t<href>http://localhost:{}</href>\n" "\t\t\t<refreshMode>onInterval</refreshMode>\n" "\t\t\t<refreshInterval>10</refreshInterval>\n" "\t\t</Link>\n" "\t</NetworkLink>\n" "</kml>\n".format(APP_NAME, KML_PORT) ) handle.close() if not run_file(tempFile): wx.MessageBox("Error starting Google Earth", "Error", wx.OK | wx.ICON_ERROR) def __on_sats(self, _event): if self.dlgSats is None: self.dlgSats = DialogSats(self) self.dlgSats.Show() def __on_loc_clear(self, _event): result = wx.MessageBox( "Remove {} locations from scan?".format(len(self.locations)), "Clear location data", wx.YES_NO, self ) if result == wx.YES: self.locations.clear() self.__set_control_state(True) def __on_log(self, _event): if self.dlgLog is None: self.dlgLog = DialogLog(self, self.log) self.dlgLog.Show() def __on_help(self, _event): webbrowser.open("http://eartoearoak.com/software/rtlsdr-scanner") def __on_update(self, _event): if self.threadUpdate is None: self.status.set_general("Checking for updates", level=None) self.threadUpdate = Thread(target=self.__update_check) self.threadUpdate.start() def __on_sys_info(self, _event): dlg = DialogSysInfo(self) dlg.ShowModal() dlg.Destroy() def __on_about(self, _event): dlg = DialogAbout(self) dlg.ShowModal() dlg.Destroy() def __on_spin(self, event): control = event.GetEventObject() if control == self.spinCtrlStart: self.spinCtrlStop.SetRange(self.spinCtrlStart.GetValue() + 1, F_MAX) def __on_choice(self, _event): self.__get_controls() self.graph.create_plot() def __on_start(self, event): self.__get_controls() if self.settings.start >= self.settings.stop: wx.MessageBox("Stop frequency must be greater that start", "Warning", wx.OK | wx.ICON_WARNING) return self.devicesRtl = self.__refresh_devices() if len(self.devicesRtl) == 0: wx.MessageBox("No devices found", "Error", wx.OK | wx.ICON_ERROR) else: if event.GetInt() == 0: self.isNewScan = True else: self.isNewScan = False self.__scan_start() if not self.settings.retainScans: self.status.set_info("Warning: Averaging is enabled in preferences", level=Log.WARN) def __on_continue(self, event): event.SetInt(1) self.__on_start(event) def __on_stop(self, event): if event.GetInt() == 0: self.stopScan = True self.stopAtEnd = False self.__scan_stop() else: self.stopScan = False self.stopAtEnd = True def __on_stop_end(self, _event): self.stopAtEnd = True def __on_range_lim(self, _event): xmin, xmax = self.graph.get_axes().get_xlim() xmin = int(xmin) xmax = math.ceil(xmax) if xmax < xmin + 1: xmax = xmin + 1 self.settings.start = xmin self.settings.stop = xmax self.__set_controls() def __on_points_lim(self, _event): self.settings.pointsLimit = self.menuPopup.pointsLim.IsChecked() self.__set_plot(self.spectrum, self.settings.annotate) def __on_gps_retry(self, _event): self.timerGpsRetry.Stop() self.__stop_gps() self.__start_gps() def __on_event(self, event): status = event.data.get_status() freq = event.data.get_arg1() data = event.data.get_arg2() if status == Event.STARTING: self.status.set_general("Starting") self.isScanning = True elif status == Event.STEPS: self.stepsTotal = (freq + 1) * 2 self.steps = self.stepsTotal self.status.set_progress(0) self.status.show_progress() elif status == Event.CAL: self.__auto_cal(Cal.DONE) elif status == Event.INFO: if self.threadScan is not None: self.sdr = self.threadScan.get_sdr() if data is not None: self.devicesRtl[self.settings.indexRtl].tuner = data self.scanInfo.tuner = data elif status == Event.DATA: self.__saved(False) cal = self.devicesRtl[self.settings.indexRtl].calibration self.pool.apply_async( anaylse_data, (freq, data, cal, self.settings.nfft, self.settings.overlap, self.settings.winFunc), callback=self.__on_process_done, ) self.__progress() elif status == Event.STOPPED: self.__cleanup() self.status.set_general("Stopped") elif status == Event.FINISHED: self.threadScan = None elif status == Event.ERROR: self.__cleanup() self.status.set_general("Error: {}".format(data), level=Log.ERROR) if self.dlgCal is not None: self.dlgCal.Destroy() self.dlgCal = None elif status == Event.PROCESSED: offset = self.settings.devicesRtl[self.settings.indexRtl].offset if self.settings.alert: alert = self.settings.alertLevel else: alert = None Thread( target=update_spectrum, name="Update", args=( self, self.lock, self.settings.start, self.settings.stop, freq, data, offset, self.spectrum, not self.settings.retainScans, alert, ), ).start() elif status == Event.LEVEL: wx.Bell() elif status == Event.UPDATED: if data and self.settings.liveUpdate: self.__set_plot( self.spectrum, self.settings.annotate and self.settings.retainScans and self.settings.mode == Mode.CONTIN, ) self.__progress() elif status == Event.DRAW: self.graph.draw() elif status == Event.VER_UPD: self.__update_checked(True, freq, data) elif status == Event.VER_NOUPD: self.__update_checked(False) elif status == Event.VER_UPDFAIL: self.__update_checked(failed=True) elif status == Event.LOC_WARN: self.status.set_gps("{}".format(data), level=Log.WARN) self.status.warn_gps() elif status == Event.LOC_ERR: self.status.set_gps("{}".format(data), level=Log.ERROR) self.status.error_gps() self.threadLocation = None if not self.timerGpsRetry.IsRunning(): self.timerGpsRetry.Start(5000, True) elif status == Event.LOC: self.__update_location(data) elif status == Event.LOC_SAT: if self.dlgSats is not None: self.dlgSats.set_sats(data) wx.YieldIfNeeded() def __on_process_done(self, data): timeStamp, freq, scan = data post_event(self, EventThread(Event.PROCESSED, freq, (timeStamp, scan))) def __auto_cal(self, status): freq = self.dlgCal.get_arg1() if self.dlgCal is not None: if status == Cal.START: self.spinCtrlStart.SetValue(int(freq)) self.spinCtrlStop.SetValue(math.ceil(freq)) self.oldCal = self.devicesRtl[self.settings.indexRtl].calibration self.devicesRtl[self.settings.indexRtl].calibration = 0 self.__get_controls() self.spectrum.clear() self.locations.clear() if not self.__scan_start(isCal=True): self.dlgCal.reset_cal() elif status == Cal.DONE: ppm = self.__calc_ppm(freq) self.dlgCal.set_cal(ppm) self.__set_control_state(True) elif status == Cal.OK: self.devicesRtl[self.settings.indexRtl].calibration = self.dlgCal.get_cal() self.settings.calFreq = freq self.dlgCal = None elif status == Cal.CANCEL: self.dlgCal = None if len(self.devicesRtl) > 0: self.devicesRtl[self.settings.indexRtl].calibration = self.oldCal def __calc_ppm(self, freq): with self.lock: timeStamp = max(self.spectrum) spectrum = self.spectrum[timeStamp].copy() for x, y in spectrum.iteritems(): spectrum[x] = (((x - freq) * (x - freq)) + 1) * y peak = max(spectrum, key=spectrum.get) return ((freq - peak) / freq) * 1e6 def __scan_start(self, isCal=False): if self.isNewScan and self.__save_warn(Warn.SCAN): return False if not self.threadScan: self.__set_control_state(False) samples = calc_samples(self.settings.dwell) if self.isNewScan: self.spectrum.clear() self.locations.clear() self.graph.clear_plots() self.isNewScan = False self.status.set_info("", level=None) self.scanInfo.set_from_settings(self.settings) self.scanInfo.time = format_iso_time(time.time()) self.scanInfo.lat = None self.scanInfo.lon = None self.scanInfo.desc = "" self.stopAtEnd = False self.stopScan = False self.threadScan = ThreadScan(self, self.sdr, self.settings, self.settings.indexRtl, samples, isCal) self.filename = "Scan {0:.1f}-{1:.1f}MHz".format(self.settings.start, self.settings.stop) self.graph.set_plot_title() self.__start_gps() return True def __scan_stop(self, join=True): if self.threadScan: self.status.set_general("Stopping") self.threadScan.abort() if join: self.threadScan.join() self.threadScan = None if self.sdr is not None: self.sdr.close() self.__set_control_state(True) def __progress(self): if self.steps == self.stepsTotal: self.status.set_general("Scanning ({} sweeps)".format(len(self.spectrum))) self.steps -= 1 if self.steps > 0 and not self.stopScan: self.status.set_progress((self.stepsTotal - self.steps) * 100.0 / (self.stepsTotal - 1)) self.status.show_progress() else: self.status.hide_progress() self.__set_plot(self.spectrum, self.settings.annotate) if self.stopScan: self.status.set_general("Stopped") self.__cleanup() elif self.settings.mode == Mode.SINGLE: self.status.set_general("Finished") self.__cleanup() else: if self.settings.mode == Mode.CONTIN: if self.dlgCal is None and not self.stopAtEnd: self.__limit_spectrum() self.__scan_start() else: self.status.set_general("Stopped") self.__cleanup() def __cleanup(self): if self.sdr is not None: self.sdr.close() self.sdr = None self.status.hide_progress() self.steps = 0 self.threadScan = None self.__set_control_state(True) self.stopAtEnd = False self.stopScan = True self.isScanning = False def __remove_last(self, data): while len(data) >= self.settings.retainMax: timeStamp = min(data) del data[timeStamp] def __limit_spectrum(self): with self.lock: self.__remove_last(self.spectrum) self.__remove_last(self.locations) def __start_gps(self): if self.settings.gps and len(self.settings.devicesGps): self.status.enable_gps() if self.threadLocation is None: device = self.settings.devicesGps[self.settings.indexGps] self.threadLocation = ThreadLocation(self, device) else: self.status.disable_gps() def __stop_gps(self, join=True): if self.threadLocation and self.threadLocation.isAlive(): self.threadLocation.stop() if join: self.threadLocation.join() self.threadLocation = None def __start_kml(self): self.serverKml = KmlServer(self.locations, self.lastLocation, self.lock) def __stop_kml(self): if self.serverKml: self.serverKml.close() def __update_location(self, data): i = 0 for loc in data: self.lastLocation[i] = loc i += 1 self.status.pulse_gps() if data[2] is None: gpsStatus = "{:.5f}, {:.5f}, {:.1f}".format(data[0], data[1]) else: gpsStatus = "{:.5f}, {:.5f}, {:.1f}m".format(data[0], data[1], data[2]) self.status.set_gps(gpsStatus, level=None) if not self.isScanning: return if self.scanInfo is not None: if data[0] and data[1]: self.scanInfo.lat = str(data[0]) self.scanInfo.lon = str(data[1]) with self.lock: if len(self.spectrum) > 0: self.locations[max(self.spectrum)] = (data[0], data[1], data[2]) def __saved(self, isSaved): self.isSaved = isSaved title = APP_NAME + " - " + self.filename if not isSaved: title += "*" self.SetTitle(title) def __set_plot(self, spectrum, annotate): if len(spectrum) > 0: total = count_points(spectrum) if total > 0: spectrum = sort_spectrum(spectrum) extent = Extent(spectrum) self.graph.set_plot(spectrum, self.settings.pointsLimit, self.settings.pointsMax, extent, annotate) else: self.graph.clear_plots() def __set_control_state(self, state): hasDevices = len(self.devicesRtl) > 0 self.spinCtrlStart.Enable(state) self.spinCtrlStop.Enable(state) self.controlGain.Enable(state) self.choiceMode.Enable(state) self.choiceDwell.Enable(state) self.choiceNfft.Enable(state) self.buttonStart.Enable(state and hasDevices) self.buttonStop.Enable(not state and hasDevices) self.menuMain.set_state(state, self.spectrum, self.locations) self.menuPopup.set_state(state, self.spectrum) def __set_controls(self): self.spinCtrlStart.SetValue(self.settings.start) self.spinCtrlStop.SetValue(self.settings.stop) self.choiceMode.SetSelection(MODE[1::2].index(self.settings.mode)) dwell = calc_real_dwell(self.settings.dwell) try: sel = DWELL[1::2].index(dwell) except ValueError: sel = DWELL[1::2][len(DWELL) / 4] self.choiceDwell.SetSelection(sel) self.choiceNfft.SetSelection(NFFT.index(self.settings.nfft)) self.choiceDisplay.SetSelection(DISPLAY[1::2].index(self.settings.display)) def __set_gain_control(self): grid = self.controlGain.GetContainingSizer() if len(self.devicesRtl) > 0: self.controlGain.Destroy() device = self.devicesRtl[self.settings.indexRtl] if device.isDevice: gains = device.get_gains_str() self.controlGain = wx.Choice(self.toolbar, choices=gains) gain = device.get_closest_gain_str(device.gain) self.controlGain.SetStringSelection(gain) else: self.controlGain = NumCtrl(self.toolbar, integerWidth=3, fractionWidth=1) font = self.controlGain.GetFont() dc = wx.WindowDC(self.controlGain) dc.SetFont(font) size = dc.GetTextExtent("####.#") self.controlGain.SetMinSize((size[0] * 1.2, -1)) self.controlGain.SetValue(device.gain) grid.Add(self.controlGain, pos=(1, 7), flag=wx.ALIGN_CENTER) grid.Layout() def __get_controls(self): self.settings.start = self.spinCtrlStart.GetValue() self.settings.stop = self.spinCtrlStop.GetValue() self.settings.startOption = self.buttonStart.GetSelected() self.settings.stopOption = self.buttonStop.GetSelected() self.settings.mode = MODE[1::2][self.choiceMode.GetSelection()] self.settings.dwell = DWELL[1::2][self.choiceDwell.GetSelection()] self.settings.nfft = NFFT[self.choiceNfft.GetSelection()] self.settings.display = DISPLAY[1::2][self.choiceDisplay.GetSelection()] if len(self.devicesRtl) > 0: device = self.devicesRtl[self.settings.indexRtl] try: if device.isDevice: device.gain = float(self.controlGain.GetStringSelection()) else: device.gain = self.controlGain.GetValue() except ValueError: device.gain = 0 def __save_warn(self, warnType): if self.settings.saveWarn and not self.isSaved: dlg = DialogSaveWarn(self, warnType) code = dlg.ShowModal() if code == wx.ID_YES: self.__on_save(None) if self.isSaved: return False else: return True elif code == wx.ID_NO: return False else: return True return False def __update_check(self): local = get_version_timestamp(True) try: remote = get_version_timestamp_repo() except IOError: post_event(self, EventThread(Event.VER_UPDFAIL)) return if remote > local: post_event(self, EventThread(Event.VER_UPD, local, remote)) else: post_event(self, EventThread(Event.VER_NOUPD)) def __update_checked(self, updateFound=False, local=None, remote=None, failed=False): self.threadUpdate = None self.status.set_general("", level=None) if failed: icon = wx.ICON_ERROR message = "Update check failed" else: icon = wx.ICON_INFORMATION if updateFound: message = "Update found\n\n" message += "Local: " + time.strftime("%c", time.localtime(local)) message += "\nRemote: " + time.strftime("%c", time.localtime(remote)) else: message = "No updates found" dlg = wx.MessageDialog(self, message, "Update", wx.OK | icon) dlg.ShowModal() dlg.Destroy() def __refresh_devices(self): self.settings.devicesRtl = get_devices_rtl(self.devicesRtl, self.status) self.settings.indexRtl = limit(self.settings.indexRtl, 0, len(self.devicesRtl) - 1) self.settings.save() return self.settings.devicesRtl def __merge(self, dirname, filename): if not os.path.exists(os.path.join(dirname, filename)): wx.MessageBox("File not found", "Error", wx.OK | wx.ICON_ERROR) return self.filename = os.path.splitext(filename)[0] self.settings.dirScans = dirname self.status.set_general("Merging: {}".format(filename)) _scanInfo, spectrum, locations = open_plot(dirname, filename) if len(spectrum) > 0: spectrum.update(self.spectrum) locations.update(self.locations) self.spectrum.clear() self.locations.clear() self.spectrum.update(OrderedDict(sorted(spectrum.items()))) self.locations.update(OrderedDict(sorted(locations.items()))) self.__set_plot(self.spectrum, self.settings.annotate) self.graph.scale_plot(True) self.status.set_general("Finished") self.settings.fileHistory.AddFileToHistory(os.path.join(dirname, filename)) else: self.status.set_general("Merge failed", level=Log.ERROR) def open(self, dirname, filename): if not os.path.exists(os.path.join(dirname, filename)): wx.MessageBox("File not found", "Error", wx.OK | wx.ICON_ERROR) return self.__on_new(None) self.graph.get_canvas().draw() self.filename = os.path.splitext(filename)[0] self.settings.dirScans = dirname self.status.set_general("Opening: {}".format(filename)) self.scanInfo, spectrum, location = open_plot(dirname, filename) if len(spectrum) > 0: self.scanInfo.set_to_settings(self.settings) self.spectrum = spectrum self.locations.clear() self.locations.update(location) self.__saved(True) self.__set_controls() self.__set_control_state(True) self.__set_plot(spectrum, self.settings.annotate) self.graph.scale_plot(True) self.status.set_general("Finished") self.settings.fileHistory.AddFileToHistory(os.path.join(dirname, filename)) else: self.status.set_general("Open failed", level=Log.ERROR)
class FrameMain(wx.Frame): def __init__(self, title, pool): self.pool = pool self.lock = threading.Lock() self.sdr = None self.threadScan = None self.threadUpdate = None self.threadLocation = None self.serverLocation = None self.isNewScan = True self.isScanning = False self.stopAtEnd = False self.stopScan = False self.dlgCal = None self.dlgSats = None self.dlgLog = None self.menuMain = None self.menuPopup = None self.graph = None self.toolbar = None self.canvas = None self.buttonStart = None self.buttonStop = None self.controlGain = None self.choiceMode = None self.choiceDwell = None self.choiceNfft = None self.spinCtrlStart = None self.spinCtrlStop = None self.choiceDisplay = None self.spectrum = OrderedDict() self.scanInfo = ScanInfo() self.locations = OrderedDict() self.lastLocation = [None] * 4 self.isSaved = True self.settings = Settings() self.devicesRtl = get_devices_rtl(self.settings.devicesRtl) self.settings.indexRtl = limit(self.settings.indexRtl, 0, len(self.devicesRtl) - 1) self.filename = "" self.oldCal = 0 self.remoteControl = None self.log = Log() self.pageConfig = wx.PageSetupDialogData() self.pageConfig.GetPrintData().SetOrientation(wx.LANDSCAPE) self.pageConfig.SetMarginTopLeft((20, 20)) self.pageConfig.SetMarginBottomRight((20, 20)) self.printConfig = wx.PrintDialogData(self.pageConfig.GetPrintData()) self.printConfig.EnableSelection(False) self.printConfig.EnablePageNumbers(False) wx.Frame.__init__(self, None, title=title) self.timerGpsRetry = wx.Timer(self) self.Bind(wx.EVT_TIMER, self.__on_gps_retry, self.timerGpsRetry) self.Bind(wx.EVT_CLOSE, self.__on_exit) self.status = Statusbar(self, self.log) self.status.set_info(title) self.SetStatusBar(self.status) add_colours() self.__create_widgets() self.__create_menu() self.__create_popup_menu() self.__set_control_state(True) self.Show() displaySize = wx.DisplaySize() toolbarSize = self.toolbar.GetBestSize() self.SetClientSize((toolbarSize[0] + 10, displaySize[1] / 2)) self.SetMinSize((displaySize[0] / 4, displaySize[1] / 4)) self.Connect(-1, -1, EVENT_THREAD, self.__on_event) self.SetDropTarget(DropTarget(self)) self.SetIcon(load_icon('rtlsdr_scan')) self.steps = 0 self.stepsTotal = 0 self.__start_gps() self.__start_location_server() def __create_widgets(self): self.remoteControl = RemoteControl() self.graph = PanelGraph(self, self, self.settings, self.status, self.remoteControl) self.toolbar = wx.Panel(self) self.buttonStart = MultiButton(self.toolbar, ['Start', 'Continue'], ['Start new scan', 'Continue scanning']) self.buttonStart.SetSelected(self.settings.startOption) self.buttonStop = MultiButton(self.toolbar, ['Stop', 'Stop at end'], ['Stop scan', 'Stop scan at end']) self.buttonStop.SetSelected(self.settings.stopOption) self.Bind(wx.EVT_BUTTON, self.__on_start, self.buttonStart) self.Bind(wx.EVT_BUTTON, self.__on_stop, self.buttonStop) textRange = wx.StaticText(self.toolbar, label="Range (MHz)", style=wx.ALIGN_CENTER) textStart = wx.StaticText(self.toolbar, label="Start") textStop = wx.StaticText(self.toolbar, label="Stop") self.spinCtrlStart = wx.SpinCtrl(self.toolbar) self.spinCtrlStop = wx.SpinCtrl(self.toolbar) self.spinCtrlStart.SetToolTipString('Start frequency') self.spinCtrlStop.SetToolTipString('Stop frequency') self.spinCtrlStart.SetRange(F_MIN, F_MAX - 1) self.spinCtrlStop.SetRange(F_MIN + 1, F_MAX) self.Bind(wx.EVT_SPINCTRL, self.__on_spin, self.spinCtrlStart) self.Bind(wx.EVT_SPINCTRL, self.__on_spin, self.spinCtrlStop) textGain = wx.StaticText(self.toolbar, label="Gain (dB)") self.controlGain = wx.Choice(self.toolbar, choices=['']) textMode = wx.StaticText(self.toolbar, label="Mode") self.choiceMode = wx.Choice(self.toolbar, choices=MODE[::2]) self.choiceMode.SetToolTipString('Scanning mode') textDwell = wx.StaticText(self.toolbar, label="Dwell") self.choiceDwell = wx.Choice(self.toolbar, choices=DWELL[::2]) self.choiceDwell.SetToolTipString('Scan time per step') textNfft = wx.StaticText(self.toolbar, label="FFT size") self.choiceNfft = wx.Choice(self.toolbar, choices=map(str, NFFT)) self.choiceNfft.SetToolTipString('Higher values for greater' 'precision') textDisplay = wx.StaticText(self.toolbar, label="Display") self.choiceDisplay = wx.Choice(self.toolbar, choices=DISPLAY[::2]) self.Bind(wx.EVT_CHOICE, self.__on_choice, self.choiceDisplay) self.choiceDisplay.SetToolTipString('Spectrogram available in' 'continuous mode') grid = wx.GridBagSizer(5, 5) grid.Add(self.buttonStart, pos=(0, 0), span=(3, 1), flag=wx.ALIGN_CENTER) grid.Add(self.buttonStop, pos=(0, 1), span=(3, 1), flag=wx.ALIGN_CENTER) grid.Add((20, 1), pos=(0, 2)) grid.Add(textRange, pos=(0, 3), span=(1, 4), flag=wx.ALIGN_CENTER) grid.Add(textStart, pos=(1, 3), flag=wx.ALIGN_CENTER) grid.Add(self.spinCtrlStart, pos=(1, 4)) grid.Add(textStop, pos=(1, 5), flag=wx.ALIGN_CENTER) grid.Add(self.spinCtrlStop, pos=(1, 6)) grid.Add(textGain, pos=(0, 7), flag=wx.ALIGN_CENTER) grid.Add(self.controlGain, pos=(1, 7), flag=wx.ALIGN_CENTER) grid.Add((20, 1), pos=(0, 8)) grid.Add(textMode, pos=(0, 9), flag=wx.ALIGN_CENTER) grid.Add(self.choiceMode, pos=(1, 9), flag=wx.ALIGN_CENTER) grid.Add(textDwell, pos=(0, 10), flag=wx.ALIGN_CENTER) grid.Add(self.choiceDwell, pos=(1, 10), flag=wx.ALIGN_CENTER) grid.Add(textNfft, pos=(0, 11), flag=wx.ALIGN_CENTER) grid.Add(self.choiceNfft, pos=(1, 11), flag=wx.ALIGN_CENTER) grid.Add((20, 1), pos=(0, 12)) grid.Add(textDisplay, pos=(0, 13), flag=wx.ALIGN_CENTER) grid.Add(self.choiceDisplay, pos=(1, 13), flag=wx.ALIGN_CENTER) self.__set_controls() self.__set_gain_control() self.toolbar.SetSizer(grid) self.toolbar.Layout() sizer = wx.BoxSizer(wx.VERTICAL) sizer.Add(self.graph, 1, wx.EXPAND) sizer.Add(self.toolbar, 0, wx.EXPAND) self.SetSizer(sizer) self.Layout() def __create_menu(self): self.menuMain = MenuMain(self, self.settings) self.Bind(wx.EVT_MENU, self.__on_new, self.menuMain.new) self.Bind(wx.EVT_MENU, self.__on_open, self.menuMain.open) self.Bind(wx.EVT_MENU, self.__on_merge, self.menuMain.merge) self.Bind(wx.EVT_MENU_RANGE, self.__on_file_history, id=wx.ID_FILE1, id2=wx.ID_FILE9) self.Bind(wx.EVT_MENU, self.__on_save, self.menuMain.save) self.Bind(wx.EVT_MENU, self.__on_export_scan, self.menuMain.exportScan) self.Bind(wx.EVT_MENU, self.__on_export_image, self.menuMain.exportImage) self.Bind(wx.EVT_MENU, self.__on_export_image_seq, self.menuMain.exportSeq) self.Bind(wx.EVT_MENU, self.__on_export_geo, self.menuMain.exportGeo) self.Bind(wx.EVT_MENU, self.__on_export_track, self.menuMain.exportTrack) self.Bind(wx.EVT_MENU, self.__on_page, self.menuMain.page) self.Bind(wx.EVT_MENU, self.__on_preview, self.menuMain.preview) self.Bind(wx.EVT_MENU, self.__on_print, self.menuMain.printer) self.Bind(wx.EVT_MENU, self.__on_properties, self.menuMain.properties) self.Bind(wx.EVT_MENU, self.__on_exit, self.menuMain.close) self.Bind(wx.EVT_MENU, self.__on_pref, self.menuMain.pref) self.Bind(wx.EVT_MENU, self.__on_adv_pref, self.menuMain.advPref) self.Bind(wx.EVT_MENU, self.__on_formatting, self.menuMain.formatting) self.Bind(wx.EVT_MENU, self.__on_devices_rtl, self.menuMain.devicesRtl) self.Bind(wx.EVT_MENU, self.__on_devices_gps, self.menuMain.devicesGps) self.Bind(wx.EVT_MENU, self.__on_reset, self.menuMain.reset) self.Bind(wx.EVT_MENU, self.__on_clear_select, self.menuMain.clearSelect) self.Bind(wx.EVT_MENU, self.__on_show_measure, self.menuMain.showMeasure) self.Bind(wx.EVT_MENU, self.__on_start, self.menuMain.start) self.Bind(wx.EVT_MENU, self.__on_continue, self.menuMain.cont) self.Bind(wx.EVT_MENU, self.__on_stop, self.menuMain.stop) self.Bind(wx.EVT_MENU, self.__on_stop_end, self.menuMain.stopEnd) self.Bind(wx.EVT_MENU, self.__on_compare, self.menuMain.compare) self.Bind(wx.EVT_MENU, self.__on_smooth, self.menuMain.smooth) self.Bind(wx.EVT_MENU, self.__on_cal, self.menuMain.cal) self.Bind(wx.EVT_MENU, self.__on_gearth, self.menuMain.gearth) self.Bind(wx.EVT_MENU, self.__on_gmaps, self.menuMain.gmaps) self.Bind(wx.EVT_MENU, self.__on_sats, self.menuMain.sats) self.Bind(wx.EVT_MENU, self.__on_loc_clear, self.menuMain.locClear) self.Bind(wx.EVT_MENU, self.__on_log, self.menuMain.log) self.Bind(wx.EVT_MENU, self.__on_help, self.menuMain.helpLink) self.Bind(wx.EVT_MENU, self.__on_update, self.menuMain.update) self.Bind(wx.EVT_MENU, self.__on_sys_info, self.menuMain.sys) self.Bind(wx.EVT_MENU, self.__on_about, self.menuMain.about) idF1 = wx.wx.NewId() self.Bind(wx.EVT_MENU, self.__on_help, id=idF1) accelTable = wx.AcceleratorTable([(wx.ACCEL_NORMAL, wx.WXK_F1, idF1)]) self.SetAcceleratorTable(accelTable) self.Bind(wx.EVT_MENU_HIGHLIGHT, self.__on_menu_highlight) self.SetMenuBar(self.menuMain.menuBar) def __create_popup_menu(self): self.menuPopup = PopMenuMain(self.settings) self.Bind(wx.EVT_MENU, self.__on_start, self.menuPopup.start) self.Bind(wx.EVT_MENU, self.__on_continue, self.menuPopup.cont) self.Bind(wx.EVT_MENU, self.__on_stop, self.menuPopup.stop) self.Bind(wx.EVT_MENU, self.__on_stop_end, self.menuPopup.stopEnd) self.Bind(wx.EVT_MENU, self.__on_range_lim, self.menuPopup.rangeLim) self.Bind(wx.EVT_MENU, self.__on_points_lim, self.menuPopup.pointsLim) self.Bind(wx.EVT_MENU, self.__on_clear_select, self.menuPopup.clearSelect) self.Bind(wx.EVT_MENU, self.__on_show_measure, self.menuPopup.showMeasure) self.Bind(wx.EVT_CONTEXT_MENU, self.__on_popup_menu) def __on_menu_highlight(self, event): item = self.GetMenuBar().FindItemById(event.GetId()) if item is not None: help = item.GetHelp() else: help = '' self.status.set_general(help, level=None) def __on_popup_menu(self, event): if not isinstance(event.GetEventObject(), NavigationToolbar): pos = event.GetPosition() pos = self.ScreenToClient(pos) self.PopupMenu(self.menuPopup.menu, pos) def __on_new(self, _event): if self.__save_warn(Warn.NEW): return True self.spectrum.clear() self.locations.clear() self.__saved(True) self.__set_plot(self.spectrum, False) self.graph.clear_selection() self.__set_control_state(True) return False def __on_open(self, _event): if self.__save_warn(Warn.OPEN): return dlg = wx.FileDialog(self, "Open a scan", self.settings.dirScans, self.filename, File.get_type_filters(File.Types.SAVE), wx.OPEN) if dlg.ShowModal() == wx.ID_OK: self.open(dlg.GetDirectory(), dlg.GetFilename()) dlg.Destroy() def __on_merge(self, _event): if self.__save_warn(Warn.MERGE): return dlg = wx.FileDialog(self, "Merge a scan", self.settings.dirScans, self.filename, File.get_type_filters(File.Types.SAVE), wx.OPEN) if dlg.ShowModal() == wx.ID_OK: self.__merge(dlg.GetDirectory(), dlg.GetFilename()) dlg.Destroy() def __on_file_history(self, event): selection = event.GetId() - wx.ID_FILE1 path = self.settings.fileHistory.GetHistoryFile(selection) self.settings.fileHistory.AddFileToHistory(path) dirname, filename = os.path.split(path) self.open(dirname, filename) def __on_save(self, _event): dlg = wx.FileDialog(self, "Save a scan", self.settings.dirScans, self.filename, File.get_type_filters(File.Types.SAVE), wx.SAVE | wx.OVERWRITE_PROMPT) if dlg.ShowModal() == wx.ID_OK: self.status.set_general("Saving...") fileName = dlg.GetFilename() dirName = dlg.GetDirectory() self.filename = os.path.splitext(fileName)[0] self.settings.dirScans = dirName fileName = extension_add(fileName, dlg.GetFilterIndex(), File.Types.SAVE) fullName = os.path.join(dirName, fileName) save_plot(fullName, self.scanInfo, self.spectrum, self.locations) self.__saved(True) self.status.set_general("Finished") self.settings.fileHistory.AddFileToHistory(fullName) dlg.Destroy() def __on_export_scan(self, _event): dlg = wx.FileDialog(self, "Export a scan", self.settings.dirExport, self.filename, File.get_type_filters(), wx.SAVE | wx.OVERWRITE_PROMPT) if dlg.ShowModal() == wx.ID_OK: self.status.set_general("Exporting...") fileName = dlg.GetFilename() dirName = dlg.GetDirectory() self.settings.dirExport = dirName fileName = extension_add(fileName, dlg.GetFilterIndex(), File.Types.PLOT) fullName = os.path.join(dirName, fileName) export_plot(fullName, dlg.GetFilterIndex(), self.spectrum) self.status.set_general("Finished") dlg.Destroy() def __on_export_image(self, _event): dlgFile = wx.FileDialog(self, "Export image to file", self.settings.dirExport, self.filename, File.get_type_filters(File.Types.IMAGE), wx.SAVE | wx.OVERWRITE_PROMPT) dlgFile.SetFilterIndex(File.ImageType.PNG) if dlgFile.ShowModal() == wx.ID_OK: dlgImg = DialogImageSize(self, self.settings) if dlgImg.ShowModal() != wx.ID_OK: dlgFile.Destroy() return self.status.set_general("Exporting...") fileName = dlgFile.GetFilename() dirName = dlgFile.GetDirectory() self.settings.dirExport = dirName fileName = extension_add(fileName, dlgFile.GetFilterIndex(), File.Types.IMAGE) fullName = os.path.join(dirName, fileName) exportType = dlgFile.GetFilterIndex() export_image(fullName, exportType, self.graph.get_figure(), self.settings) self.status.set_general("Finished") dlgFile.Destroy() def __on_export_image_seq(self, _event): dlgSeq = DialogExportSeq(self, self.spectrum, self.settings) dlgSeq.ShowModal() dlgSeq.Destroy() def __on_export_geo(self, _event): dlgGeo = DialogExportGeo(self, self.spectrum, self.locations, self.settings) if dlgGeo.ShowModal() == wx.ID_OK: self.status.set_general("Exporting...") extent = dlgGeo.get_extent() dlgFile = wx.FileDialog(self, "Export map to file", self.settings.dirExport, self.filename, File.get_type_filters(File.Types.GEO), wx.SAVE | wx.OVERWRITE_PROMPT) dlgFile.SetFilterIndex(File.GeoType.KMZ) if dlgFile.ShowModal() == wx.ID_OK: fileName = dlgFile.GetFilename() dirName = dlgFile.GetDirectory() self.settings.dirExport = dirName fileName = extension_add(fileName, dlgFile.GetFilterIndex(), File.Types.GEO) fullName = os.path.join(dirName, fileName) exportType = dlgFile.GetFilterIndex() image = None xyz = None if exportType == File.GeoType.CSV: xyz = dlgGeo.get_xyz() else: image = dlgGeo.get_image() export_map(fullName, exportType, extent, image, xyz) self.status.set_general("Finished") dlgFile.Destroy() dlgGeo.Destroy() def __on_export_track(self, _event): dlg = wx.FileDialog(self, "Export GPS to file", self.settings.dirExport, self.filename, File.get_type_filters(File.Types.TRACK), wx.SAVE | wx.OVERWRITE_PROMPT) if dlg.ShowModal() == wx.ID_OK: self.status.set_general("Exporting...") fileName = dlg.GetFilename() dirName = dlg.GetDirectory() self.settings.dirExport = dirName fileName = extension_add(fileName, dlg.GetFilterIndex(), File.Types.TRACK) fullName = os.path.join(dirName, fileName) export_gpx(fullName, self.locations, self.GetName()) self.status.set_general("Finished") dlg.Destroy() def __on_page(self, _event): dlg = wx.PageSetupDialog(self, self.pageConfig) if dlg.ShowModal() == wx.ID_OK: self.pageConfig = wx.PageSetupDialogData( dlg.GetPageSetupDialogData()) self.printConfig.SetPrintData(self.pageConfig.GetPrintData()) dlg.Destroy() def __on_preview(self, _event): printout = PrintOut(self.graph, self.filename, self.pageConfig) printoutPrinting = PrintOut(self.graph, self.filename, self.pageConfig) preview = wx.PrintPreview(printout, printoutPrinting, self.printConfig) frame = wx.PreviewFrame(preview, self, 'Print Preview') frame.Initialize() frame.SetSize(self.GetSize()) frame.Show(True) def __on_print(self, _event): printer = wx.Printer(self.printConfig) printout = PrintOut(self.graph, self.filename, self.pageConfig) if printer.Print(self, printout, True): self.printConfig = wx.PrintDialogData(printer.GetPrintDialogData()) self.pageConfig.SetPrintData(self.printConfig.GetPrintData()) def __on_properties(self, _event): if len(self.spectrum) > 0: self.scanInfo.timeFirst = min(self.spectrum) self.scanInfo.timeLast = max(self.spectrum) dlg = DialogProperties(self, self.scanInfo) dlg.ShowModal() dlg.Destroy() def __on_exit(self, _event): self.Unbind(wx.EVT_CLOSE) if self.__save_warn(Warn.EXIT): self.Bind(wx.EVT_CLOSE, self.__on_exit) return self.__scan_stop(False) self.__stop_gps(False) self.__stop_location_server() self.__get_controls() self.settings.devicesRtl = self.devicesRtl self.settings.save() self.graph.close() self.Destroy() def __on_pref(self, _event): self.__get_controls() dlg = DialogPrefs(self, self.settings) if dlg.ShowModal() == wx.ID_OK: self.graph.create_plot() self.__set_control_state(True) self.__set_controls() dlg.Destroy() def __on_adv_pref(self, _event): dlg = DialogAdvPrefs(self, self.settings) if dlg.ShowModal() == wx.ID_OK: self.__set_control_state(True) dlg.Destroy() def __on_formatting(self, _event): dlg = DialogFormatting(self, self.settings) if dlg.ShowModal() == wx.ID_OK: self.__set_control_state(True) self.graph.update_measure() self.graph.redraw_plot() dlg.Destroy() def __on_devices_rtl(self, _event): self.__get_controls() self.devicesRtl = self.__refresh_devices() dlg = DialogDevicesRTL(self, self.devicesRtl, self.settings) if dlg.ShowModal() == wx.ID_OK: self.devicesRtl = dlg.get_devices() self.settings.indexRtl = dlg.get_index() self.__set_gain_control() self.__set_control_state(True) self.__set_controls() dlg.Destroy() def __on_devices_gps(self, _event): self.__stop_gps() self.status.set_gps('GPS Stopped') dlg = DialogDevicesGPS(self, self.settings) dlg.ShowModal() dlg.Destroy() self.__start_gps() def __on_reset(self, _event): dlg = wx.MessageDialog( self, 'Reset all settings to the default values\n' '(cannot be undone)?', 'Reset Settings', wx.YES_NO | wx.ICON_QUESTION) if dlg.ShowModal() == wx.ID_YES: self.devicesRtl = [] self.settings.reset() self.__set_controls() self.graph.create_plot() dlg.Destroy() def __on_compare(self, _event): dlg = DialogCompare(self, self.settings, self.filename) dlg.Show() def __on_smooth(self, _event): dlg = DialogSmooth(self, self.spectrum, self.settings) if dlg.ShowModal() == wx.ID_OK: saved = self.isSaved self.isSaved = False if not self.__on_new(None): self.spectrum.clear() spectrum = dlg.get_spectrum() self.spectrum.update(OrderedDict(sorted(spectrum.items()))) self.__set_plot(self.spectrum, False) self.graph.update_measure() self.graph.redraw_plot() self.__saved(False) else: self.__saved(saved) def __on_clear_select(self, _event): self.graph.clear_selection() def __on_show_measure(self, event): show = event.Checked() self.menuMain.showMeasure.Check(show) self.menuPopup.showMeasure.Check(show) self.settings.showMeasure = show self.graph.show_measure_table(show) self.Layout() def __on_cal(self, _event): self.dlgCal = DialogAutoCal(self, self.settings.calFreq, self.__auto_cal) self.dlgCal.ShowModal() def __on_gearth(self, _event): tempPath = tempfile.mkdtemp() tempFile = os.path.join(tempPath, 'RTLSDRScannerLink.kml') handle = open(tempFile, 'wb') create_gearth(handle) handle.close() if not run_file(tempFile): wx.MessageBox('Error starting Google Earth', 'Error', wx.OK | wx.ICON_ERROR) def __on_gmaps(self, _event): url = 'http://localhost:{}/rtlsdr_scan.html'.format(LOCATION_PORT) webbrowser.open_new(url) def __on_sats(self, _event): if self.dlgSats is None: self.dlgSats = DialogSats(self) self.dlgSats.Show() def __on_loc_clear(self, _event): result = wx.MessageBox( 'Remove {} locations from scan?'.format(len(self.locations)), 'Clear location data', wx.YES_NO, self) if result == wx.YES: self.locations.clear() self.__set_control_state(True) def __on_log(self, _event): if self.dlgLog is None: self.dlgLog = DialogLog(self, self.log) self.dlgLog.Show() def __on_help(self, _event): webbrowser.open("http://eartoearoak.com/software/rtlsdr-scanner") def __on_update(self, _event): if self.threadUpdate is None: self.status.set_general("Checking for updates", level=None) self.threadUpdate = Thread(target=self.__update_check) self.threadUpdate.start() def __on_sys_info(self, _event): dlg = DialogSysInfo(self) dlg.ShowModal() dlg.Destroy() def __on_about(self, _event): dlg = DialogAbout(self) dlg.ShowModal() dlg.Destroy() def __on_spin(self, event): control = event.GetEventObject() if control == self.spinCtrlStart: self.spinCtrlStop.SetRange(self.spinCtrlStart.GetValue() + 1, F_MAX) def __on_choice(self, _event): self.__get_controls() self.graph.create_plot() def __on_start(self, event): self.__get_controls() if self.settings.start >= self.settings.stop: wx.MessageBox('Stop frequency must be greater that start', 'Warning', wx.OK | wx.ICON_WARNING) return self.devicesRtl = self.__refresh_devices() if len(self.devicesRtl) == 0: wx.MessageBox('No devices found', 'Error', wx.OK | wx.ICON_ERROR) else: if event.GetInt() == 0: self.isNewScan = True else: self.isNewScan = False self.__scan_start() if not self.settings.retainScans: self.status.set_info( 'Warning: Averaging is enabled in preferences', level=Log.WARN) def __on_continue(self, event): event.SetInt(1) self.__on_start(event) def __on_stop(self, event): if event.GetInt() == 0: self.stopScan = True self.stopAtEnd = False self.__scan_stop() else: self.stopScan = False self.stopAtEnd = True def __on_stop_end(self, _event): self.stopAtEnd = True def __on_range_lim(self, _event): xmin, xmax = self.graph.get_axes().get_xlim() xmin = int(xmin) xmax = math.ceil(xmax) if xmax < xmin + 1: xmax = xmin + 1 self.settings.start = xmin self.settings.stop = xmax self.__set_controls() def __on_points_lim(self, _event): self.settings.pointsLimit = self.menuPopup.pointsLim.IsChecked() self.__set_plot(self.spectrum, self.settings.annotate) def __on_gps_retry(self, _event): self.timerGpsRetry.Stop() self.__stop_gps() self.__start_gps() def __on_event(self, event): status = event.data.get_status() freq = event.data.get_arg1() data = event.data.get_arg2() if status == Event.STARTING: self.status.set_general("Starting") self.isScanning = True elif status == Event.STEPS: self.stepsTotal = (freq + 1) * 2 self.steps = self.stepsTotal self.status.set_progress(0) self.status.show_progress() elif status == Event.CAL: self.__auto_cal(Cal.DONE) elif status == Event.INFO: if self.threadScan is not None: self.sdr = self.threadScan.get_sdr() if data is not None: self.devicesRtl[self.settings.indexRtl].tuner = data self.scanInfo.tuner = data elif status == Event.DATA: self.__saved(False) cal = self.devicesRtl[self.settings.indexRtl].calibration self.pool.apply_async( anaylse_data, (freq, data, cal, self.settings.nfft, self.settings.overlap, self.settings.winFunc), callback=self.__on_process_done) self.__progress() elif status == Event.STOPPED: self.__cleanup() self.status.set_general("Stopped") elif status == Event.FINISHED: self.threadScan = None elif status == Event.ERROR: self.__cleanup() self.status.set_general("Error: {}".format(data), level=Log.ERROR) if self.dlgCal is not None: self.dlgCal.Destroy() self.dlgCal = None elif status == Event.PROCESSED: offset = self.settings.devicesRtl[self.settings.indexRtl].offset if self.settings.alert: alert = self.settings.alertLevel else: alert = None Thread(target=update_spectrum, name='Update', args=(self, self.lock, self.settings.start, self.settings.stop, freq, data, offset, self.spectrum, not self.settings.retainScans, alert)).start() elif status == Event.LEVEL: wx.Bell() elif status == Event.UPDATED: if data and self.settings.liveUpdate: self.__set_plot( self.spectrum, self.settings.annotate and self.settings.retainScans and self.settings.mode == Mode.CONTIN) self.__progress() elif status == Event.DRAW: self.graph.draw() elif status == Event.VER_UPD: self.__update_checked(True, freq, data) elif status == Event.VER_NOUPD: self.__update_checked(False) elif status == Event.VER_UPDFAIL: self.__update_checked(failed=True) elif status == Event.LOC_WARN: self.status.set_gps("{}".format(data), level=Log.WARN) self.status.warn_gps() elif status == Event.LOC_ERR: self.status.set_gps("{}".format(data), level=Log.ERROR) self.status.error_gps() self.threadLocation = None if not self.timerGpsRetry.IsRunning(): self.timerGpsRetry.Start(5000, True) elif status == Event.LOC: self.__update_location(data) elif status == Event.LOC_SAT: if self.dlgSats is not None: self.dlgSats.set_sats(data) wx.YieldIfNeeded() def __on_process_done(self, data): timeStamp, freq, scan = data post_event(self, EventThread(Event.PROCESSED, freq, (timeStamp, scan))) def __auto_cal(self, status): freq = self.dlgCal.get_arg1() if self.dlgCal is not None: if status == Cal.START: self.spinCtrlStart.SetValue(int(freq)) self.spinCtrlStop.SetValue(math.ceil(freq)) self.oldCal = self.devicesRtl[ self.settings.indexRtl].calibration self.devicesRtl[self.settings.indexRtl].calibration = 0 self.__get_controls() self.spectrum.clear() self.locations.clear() if not self.__scan_start(isCal=True): self.dlgCal.reset_cal() elif status == Cal.DONE: ppm = self.__calc_ppm(freq) self.dlgCal.set_cal(ppm) self.__set_control_state(True) elif status == Cal.OK: self.devicesRtl[self.settings. indexRtl].calibration = self.dlgCal.get_cal() self.settings.calFreq = freq self.dlgCal = None elif status == Cal.CANCEL: self.dlgCal = None if len(self.devicesRtl) > 0: self.devicesRtl[ self.settings.indexRtl].calibration = self.oldCal def __calc_ppm(self, freq): with self.lock: timeStamp = max(self.spectrum) spectrum = self.spectrum[timeStamp].copy() for x, y in spectrum.iteritems(): spectrum[x] = (((x - freq) * (x - freq)) + 1) * y peak = max(spectrum, key=spectrum.get) return ((freq - peak) / freq) * 1e6 def __scan_start(self, isCal=False): if self.isNewScan and self.__save_warn(Warn.SCAN): return False if not self.threadScan: self.__set_control_state(False) samples = calc_samples(self.settings.dwell) if self.isNewScan: self.spectrum.clear() self.locations.clear() self.graph.clear_plots() self.isNewScan = False self.status.set_info('', level=None) self.scanInfo.set_from_settings(self.settings) self.scanInfo.time = format_iso_time(time.time()) self.scanInfo.lat = None self.scanInfo.lon = None self.scanInfo.desc = '' self.stopAtEnd = False self.stopScan = False self.threadScan = ThreadScan(self, self.sdr, self.settings, self.settings.indexRtl, samples, isCal) self.filename = "Scan {0:.1f}-{1:.1f}MHz".format( self.settings.start, self.settings.stop) self.graph.set_plot_title() self.__start_gps() return True def __scan_stop(self, join=True): if self.threadScan: self.status.set_general("Stopping") self.threadScan.abort() if join: self.threadScan.join() self.threadScan = None if self.sdr is not None: self.sdr.close() self.__set_control_state(True) def __progress(self): if self.steps == self.stepsTotal: self.status.set_general("Scanning ({} sweeps)".format( len(self.spectrum))) self.steps -= 1 if self.steps > 0 and not self.stopScan: self.status.set_progress( (self.stepsTotal - self.steps) * 100.0 / (self.stepsTotal - 1)) self.status.show_progress() else: self.status.hide_progress() self.__set_plot(self.spectrum, self.settings.annotate) if self.stopScan: self.status.set_general("Stopped") self.__cleanup() elif self.settings.mode == Mode.SINGLE: self.status.set_general("Finished") self.__cleanup() else: if self.settings.mode == Mode.CONTIN: if self.dlgCal is None and not self.stopAtEnd: self.__limit_spectrum() self.__scan_start() else: self.status.set_general("Stopped") self.__cleanup() def __cleanup(self): if self.sdr is not None: self.sdr.close() self.sdr = None self.status.hide_progress() self.steps = 0 self.threadScan = None self.__set_control_state(True) self.stopAtEnd = False self.stopScan = True self.isScanning = False def __remove_last(self, data): while len(data) >= self.settings.retainMax: timeStamp = min(data) del data[timeStamp] def __limit_spectrum(self): with self.lock: self.__remove_last(self.spectrum) self.__remove_last(self.locations) def __start_gps(self): if self.settings.gps and len(self.settings.devicesGps): self.status.enable_gps() if self.threadLocation is None: device = self.settings.devicesGps[self.settings.indexGps] self.threadLocation = ThreadLocation(self, device) else: self.status.disable_gps() def __stop_gps(self, join=True): if self.threadLocation and self.threadLocation.isAlive(): self.threadLocation.stop() if join: self.threadLocation.join() self.threadLocation = None def __start_location_server(self): self.serverLocation = LocationServer(self.locations, self.lastLocation, self.lock, self.log) def __stop_location_server(self): if self.serverLocation: self.serverLocation.close() def __update_location(self, data): i = 0 for loc in data: self.lastLocation[i] = loc i += 1 self.status.pulse_gps() if data[2] is None: gpsStatus = '{:.5f}, {:.5f}, {:.1f}'.format(data[0], data[1]) else: gpsStatus = '{:.5f}, {:.5f}, {:.1f}m'.format( data[0], data[1], data[2]) self.status.set_gps(gpsStatus, level=None) if not self.isScanning: return if self.scanInfo is not None: if data[0] and data[1]: self.scanInfo.lat = str(data[0]) self.scanInfo.lon = str(data[1]) with self.lock: if len(self.spectrum) > 0: self.locations[max(self.spectrum)] = (data[0], data[1], data[2]) def __saved(self, isSaved): self.isSaved = isSaved title = APP_NAME + " - " + self.filename if not isSaved: title += "*" self.SetTitle(title) def __set_plot(self, spectrum, annotate): if len(spectrum) > 0: total = count_points(spectrum) if total > 0: spectrum = sort_spectrum(spectrum) extent = Extent(spectrum) self.graph.set_plot(spectrum, self.settings.pointsLimit, self.settings.pointsMax, extent, annotate) else: self.graph.clear_plots() def __set_control_state(self, state): hasDevices = len(self.devicesRtl) > 0 self.spinCtrlStart.Enable(state) self.spinCtrlStop.Enable(state) self.controlGain.Enable(state) self.choiceMode.Enable(state) self.choiceDwell.Enable(state) self.choiceNfft.Enable(state) self.buttonStart.Enable(state and hasDevices) self.buttonStop.Enable(not state and hasDevices) self.menuMain.set_state(state, self.spectrum, self.locations) self.menuPopup.set_state(state, self.spectrum) def __set_controls(self): self.spinCtrlStart.SetValue(self.settings.start) self.spinCtrlStop.SetValue(self.settings.stop) self.choiceMode.SetSelection(MODE[1::2].index(self.settings.mode)) dwell = calc_real_dwell(self.settings.dwell) try: sel = DWELL[1::2].index(dwell) except ValueError: sel = DWELL[1::2][len(DWELL) / 4] self.choiceDwell.SetSelection(sel) self.choiceNfft.SetSelection(NFFT.index(self.settings.nfft)) self.choiceDisplay.SetSelection(DISPLAY[1::2].index( self.settings.display)) def __set_gain_control(self): grid = self.controlGain.GetContainingSizer() if len(self.devicesRtl) > 0: self.controlGain.Destroy() device = self.devicesRtl[self.settings.indexRtl] if device.isDevice: gains = device.get_gains_str() self.controlGain = wx.Choice(self.toolbar, choices=gains) gain = device.get_closest_gain_str(device.gain) self.controlGain.SetStringSelection(gain) else: self.controlGain = NumCtrl(self.toolbar, integerWidth=3, fractionWidth=1) font = self.controlGain.GetFont() dc = wx.WindowDC(self.controlGain) dc.SetFont(font) size = dc.GetTextExtent('####.#') self.controlGain.SetMinSize((size[0] * 1.2, -1)) self.controlGain.SetValue(device.gain) grid.Add(self.controlGain, pos=(1, 7), flag=wx.ALIGN_CENTER) grid.Layout() def __get_controls(self): self.settings.start = self.spinCtrlStart.GetValue() self.settings.stop = self.spinCtrlStop.GetValue() self.settings.startOption = self.buttonStart.GetSelected() self.settings.stopOption = self.buttonStop.GetSelected() self.settings.mode = MODE[1::2][self.choiceMode.GetSelection()] self.settings.dwell = DWELL[1::2][self.choiceDwell.GetSelection()] self.settings.nfft = NFFT[self.choiceNfft.GetSelection()] self.settings.display = DISPLAY[1::2][ self.choiceDisplay.GetSelection()] if len(self.devicesRtl) > 0: device = self.devicesRtl[self.settings.indexRtl] try: if device.isDevice: device.gain = float(self.controlGain.GetStringSelection()) else: device.gain = self.controlGain.GetValue() except ValueError: device.gain = 0 def __save_warn(self, warnType): if self.settings.saveWarn and not self.isSaved: dlg = DialogSaveWarn(self, warnType) code = dlg.ShowModal() if code == wx.ID_YES: self.__on_save(None) if self.isSaved: return False else: return True elif code == wx.ID_NO: return False else: return True return False def __update_check(self): local = get_version_timestamp(True) try: remote = get_version_timestamp_repo() except IOError: post_event(self, EventThread(Event.VER_UPDFAIL)) return if remote > local: post_event(self, EventThread(Event.VER_UPD, local, remote)) else: post_event(self, EventThread(Event.VER_NOUPD)) def __update_checked(self, updateFound=False, local=None, remote=None, failed=False): self.threadUpdate = None self.status.set_general("", level=None) if failed: icon = wx.ICON_ERROR message = "Update check failed" else: icon = wx.ICON_INFORMATION if updateFound: message = "Update found\n\n" message += "Local: " + time.strftime('%c', time.localtime(local)) message += "\nRemote: " + time.strftime( '%c', time.localtime(remote)) else: message = "No updates found" dlg = wx.MessageDialog(self, message, "Update", wx.OK | icon) dlg.ShowModal() dlg.Destroy() def __refresh_devices(self): self.settings.devicesRtl = get_devices_rtl(self.devicesRtl, self.status) self.settings.indexRtl = limit(self.settings.indexRtl, 0, len(self.devicesRtl) - 1) self.settings.save() return self.settings.devicesRtl def __merge(self, dirname, filename): if not os.path.exists(os.path.join(dirname, filename)): wx.MessageBox('File not found', 'Error', wx.OK | wx.ICON_ERROR) return self.filename = os.path.splitext(filename)[0] self.settings.dirScans = dirname self.status.set_general("Merging: {}".format(filename)) _scanInfo, spectrum, locations = open_plot(dirname, filename) if len(spectrum) > 0: spectrum.update(self.spectrum) locations.update(self.locations) self.spectrum.clear() self.locations.clear() self.spectrum.update(OrderedDict(sorted(spectrum.items()))) self.locations.update(OrderedDict(sorted(locations.items()))) self.__set_plot(self.spectrum, self.settings.annotate) self.graph.scale_plot(True) self.status.set_general("Finished") self.settings.fileHistory.AddFileToHistory( os.path.join(dirname, filename)) else: self.status.set_general("Merge failed", level=Log.ERROR) def open(self, dirname, filename): if not os.path.exists(os.path.join(dirname, filename)): wx.MessageBox('File not found', 'Error', wx.OK | wx.ICON_ERROR) return self.__on_new(None) self.graph.get_canvas().draw() self.filename = os.path.splitext(filename)[0] self.settings.dirScans = dirname self.status.set_general("Opening: {}".format(filename)) self.scanInfo, spectrum, location = open_plot(dirname, filename) if len(spectrum) > 0: self.scanInfo.set_to_settings(self.settings) self.spectrum = spectrum self.locations.clear() self.locations.update(location) self.__saved(True) self.__set_controls() self.__set_control_state(True) self.__set_plot(spectrum, self.settings.annotate) self.graph.scale_plot(True) self.status.set_general("Finished") self.settings.fileHistory.AddFileToHistory( os.path.join(dirname, filename)) else: self.status.set_general("Open failed", level=Log.ERROR)