Mercurial Repositories > eric / file revision
eric7/MicroPython/MicroPythonWidget.py@800c432b34c8
eric7/MicroPython/MicroPythonWidget.py
Sat, 15 May 2021 18:45:04 +0200
- author
- Detlev Offenbach <detlev@die-offenbachs.de>
- date
- Sat, 15 May 2021 18:45:04 +0200
- branch
- eric7
- changeset 8312
- 800c432b34c8
- parent 8259
- eric6/MicroPython/MicroPythonWidget.py@2bbec88047dd
- child 8318
- 962bce857696
- permissions
- -rw-r--r--
Started to rename eric6 to eric7.
# -*- coding: utf-8 -*- # Copyright (c) 2019 - 2021 Detlev Offenbach <detlev@die-offenbachs.de> # """ Module implementing the MicroPython REPL widget. """ import re import time import os import functools from PyQt5.QtCore import pyqtSlot, pyqtSignal, Qt, QPoint, QEvent from PyQt5.QtGui import QColor, QKeySequence, QTextCursor, QBrush, QClipboard from PyQt5.QtWidgets import ( QWidget, QMenu, QApplication, QHBoxLayout, QSpacerItem, QSizePolicy, QTextEdit, QToolButton, QDialog ) from E5Gui.E5ZoomWidget import E5ZoomWidget from E5Gui import E5MessageBox, E5FileDialog from E5Gui.E5Application import e5App from E5Gui.E5ProcessDialog import E5ProcessDialog from E5Gui.E5OverrideCursor import E5OverrideCursor, E5OverridenCursor from .Ui_MicroPythonWidget import Ui_MicroPythonWidget from . import MicroPythonDevices from . import UF2FlashDialog try: from .MicroPythonGraphWidget import MicroPythonGraphWidget HAS_QTCHART = True except ImportError: HAS_QTCHART = False from .MicroPythonFileManagerWidget import MicroPythonFileManagerWidget try: from .MicroPythonCommandsInterface import MicroPythonCommandsInterface HAS_QTSERIALPORT = True except ImportError: HAS_QTSERIALPORT = False import Globals import UI.PixmapCache import Preferences import Utilities from UI.Info import BugAddress # ANSI Colors (see https://en.wikipedia.org/wiki/ANSI_escape_code) AnsiColorSchemes = { "Windows 7": { 0: QBrush(QColor(0, 0, 0)), 1: QBrush(QColor(128, 0, 0)), 2: QBrush(QColor(0, 128, 0)), 3: QBrush(QColor(128, 128, 0)), 4: QBrush(QColor(0, 0, 128)), 5: QBrush(QColor(128, 0, 128)), 6: QBrush(QColor(0, 128, 128)), 7: QBrush(QColor(192, 192, 192)), 10: QBrush(QColor(128, 128, 128)), 11: QBrush(QColor(255, 0, 0)), 12: QBrush(QColor(0, 255, 0)), 13: QBrush(QColor(255, 255, 0)), 14: QBrush(QColor(0, 0, 255)), 15: QBrush(QColor(255, 0, 255)), 16: QBrush(QColor(0, 255, 255)), 17: QBrush(QColor(255, 255, 255)), }, "Windows 10": { 0: QBrush(QColor(12, 12, 12)), 1: QBrush(QColor(197, 15, 31)), 2: QBrush(QColor(19, 161, 14)), 3: QBrush(QColor(193, 156, 0)), 4: QBrush(QColor(0, 55, 218)), 5: QBrush(QColor(136, 23, 152)), 6: QBrush(QColor(58, 150, 221)), 7: QBrush(QColor(204, 204, 204)), 10: QBrush(QColor(118, 118, 118)), 11: QBrush(QColor(231, 72, 86)), 12: QBrush(QColor(22, 198, 12)), 13: QBrush(QColor(249, 241, 165)), 14: QBrush(QColor(59, 12, 255)), 15: QBrush(QColor(180, 0, 158)), 16: QBrush(QColor(97, 214, 214)), 17: QBrush(QColor(242, 242, 242)), }, "PuTTY": { 0: QBrush(QColor(0, 0, 0)), 1: QBrush(QColor(187, 0, 0)), 2: QBrush(QColor(0, 187, 0)), 3: QBrush(QColor(187, 187, 0)), 4: QBrush(QColor(0, 0, 187)), 5: QBrush(QColor(187, 0, 187)), 6: QBrush(QColor(0, 187, 187)), 7: QBrush(QColor(187, 187, 187)), 10: QBrush(QColor(85, 85, 85)), 11: QBrush(QColor(255, 85, 85)), 12: QBrush(QColor(85, 255, 85)), 13: QBrush(QColor(255, 255, 85)), 14: QBrush(QColor(85, 85, 255)), 15: QBrush(QColor(255, 85, 255)), 16: QBrush(QColor(85, 255, 255)), 17: QBrush(QColor(255, 255, 255)), }, "xterm": { 0: QBrush(QColor(0, 0, 0)), 1: QBrush(QColor(205, 0, 0)), 2: QBrush(QColor(0, 205, 0)), 3: QBrush(QColor(205, 205, 0)), 4: QBrush(QColor(0, 0, 238)), 5: QBrush(QColor(205, 0, 205)), 6: QBrush(QColor(0, 205, 205)), 7: QBrush(QColor(229, 229, 229)), 10: QBrush(QColor(127, 127, 127)), 11: QBrush(QColor(255, 0, 0)), 12: QBrush(QColor(0, 255, 0)), 13: QBrush(QColor(255, 255, 0)), 14: QBrush(QColor(0, 0, 255)), 15: QBrush(QColor(255, 0, 255)), 16: QBrush(QColor(0, 255, 255)), 17: QBrush(QColor(255, 255, 255)), }, "Ubuntu": { 0: QBrush(QColor(1, 1, 1)), 1: QBrush(QColor(222, 56, 43)), 2: QBrush(QColor(57, 181, 74)), 3: QBrush(QColor(255, 199, 6)), 4: QBrush(QColor(0, 11, 184)), 5: QBrush(QColor(118, 38, 113)), 6: QBrush(QColor(44, 181, 233)), 7: QBrush(QColor(204, 204, 204)), 10: QBrush(QColor(128, 128, 128)), 11: QBrush(QColor(255, 0, 0)), 12: QBrush(QColor(0, 255, 0)), 13: QBrush(QColor(255, 255, 0)), 14: QBrush(QColor(0, 0, 255)), 15: QBrush(QColor(255, 0, 255)), 16: QBrush(QColor(0, 255, 255)), 17: QBrush(QColor(255, 255, 255)), }, "Ubuntu (dark)": { 0: QBrush(QColor(96, 96, 96)), 1: QBrush(QColor(235, 58, 45)), 2: QBrush(QColor(57, 181, 74)), 3: QBrush(QColor(255, 199, 29)), 4: QBrush(QColor(25, 56, 230)), 5: QBrush(QColor(200, 64, 193)), 6: QBrush(QColor(48, 200, 255)), 7: QBrush(QColor(204, 204, 204)), 10: QBrush(QColor(128, 128, 128)), 11: QBrush(QColor(255, 0, 0)), 12: QBrush(QColor(0, 255, 0)), 13: QBrush(QColor(255, 255, 0)), 14: QBrush(QColor(0, 0, 255)), 15: QBrush(QColor(255, 0, 255)), 16: QBrush(QColor(0, 255, 255)), 17: QBrush(QColor(255, 255, 255)), }, "Breeze (dark)": { 0: QBrush(QColor(35, 38, 39)), 1: QBrush(QColor(237, 21, 21)), 2: QBrush(QColor(17, 209, 22)), 3: QBrush(QColor(246, 116, 0)), 4: QBrush(QColor(29, 153, 243)), 5: QBrush(QColor(155, 89, 182)), 6: QBrush(QColor(26, 188, 156)), 7: QBrush(QColor(252, 252, 252)), 10: QBrush(QColor(127, 140, 141)), 11: QBrush(QColor(192, 57, 43)), 12: QBrush(QColor(28, 220, 154)), 13: QBrush(QColor(253, 188, 75)), 14: QBrush(QColor(61, 174, 233)), 15: QBrush(QColor(142, 68, 173)), 16: QBrush(QColor(22, 160, 133)), 17: QBrush(QColor(255, 255, 255)), }, } class MicroPythonWidget(QWidget, Ui_MicroPythonWidget): """ Class implementing the MicroPython REPL widget. @signal dataReceived(data) emitted to send data received via the serial connection for further processing """ ZoomMin = -10 ZoomMax = 20 DeviceTypeRole = Qt.ItemDataRole.UserRole DeviceBoardRole = Qt.ItemDataRole.UserRole + 1 DevicePortRole = Qt.ItemDataRole.UserRole + 2 DeviceVidRole = Qt.ItemDataRole.UserRole + 3 DevicePidRole = Qt.ItemDataRole.UserRole + 4 dataReceived = pyqtSignal(bytes) ManualMarker = "<manual>" def __init__(self, parent=None): """ Constructor @param parent reference to the parent widget @type QWidget """ super().__init__(parent) self.setupUi(self) self.__ui = parent self.__superMenu = QMenu(self) self.__superMenu.aboutToShow.connect(self.__aboutToShowSuperMenu) self.menuButton.setObjectName( "micropython_supermenu_button") self.menuButton.setIcon(UI.PixmapCache.getIcon("superMenu")) self.menuButton.setToolTip(self.tr("MicroPython Menu")) self.menuButton.setPopupMode( QToolButton.ToolButtonPopupMode.InstantPopup) self.menuButton.setToolButtonStyle( Qt.ToolButtonStyle.ToolButtonIconOnly) self.menuButton.setFocusPolicy(Qt.FocusPolicy.NoFocus) self.menuButton.setAutoRaise(True) self.menuButton.setShowMenuInside(True) self.menuButton.setMenu(self.__superMenu) self.deviceIconLabel.setPixmap(MicroPythonDevices.getDeviceIcon( "", False)) self.openButton.setIcon(UI.PixmapCache.getIcon("open")) self.saveButton.setIcon(UI.PixmapCache.getIcon("fileSaveAs")) self.checkButton.setIcon(UI.PixmapCache.getIcon("question")) self.runButton.setIcon(UI.PixmapCache.getIcon("start")) self.replButton.setIcon(UI.PixmapCache.getIcon("terminal")) self.filesButton.setIcon(UI.PixmapCache.getIcon("filemanager")) self.chartButton.setIcon(UI.PixmapCache.getIcon("chart")) self.connectButton.setIcon(UI.PixmapCache.getIcon("linkConnect")) self.__zoomLayout = QHBoxLayout() spacerItem = QSpacerItem(40, 20, QSizePolicy.Policy.Expanding, QSizePolicy.Policy.Minimum) self.__zoomLayout.addSpacerItem(spacerItem) self.__zoom0 = self.replEdit.fontPointSize() self.__zoomWidget = E5ZoomWidget( UI.PixmapCache.getPixmap("zoomOut"), UI.PixmapCache.getPixmap("zoomIn"), UI.PixmapCache.getPixmap("zoomReset"), self) self.__zoomLayout.addWidget(self.__zoomWidget) self.layout().insertLayout( self.layout().count() - 1, self.__zoomLayout) self.__zoomWidget.setMinimum(self.ZoomMin) self.__zoomWidget.setMaximum(self.ZoomMax) self.__zoomWidget.valueChanged.connect(self.__doZoom) self.__currentZoom = 0 self.__fileManagerWidget = None self.__chartWidget = None self.__unknownPorts = [] self.__lastPort = None self.__lastDeviceType = None if HAS_QTSERIALPORT: self.__interface = MicroPythonCommandsInterface(self) else: self.__interface = None self.__device = None self.__connected = False self.__setConnected(False) if not HAS_QTSERIALPORT: self.replEdit.setHtml(self.tr( "<h3>The QtSerialPort package is not available.<br/>" "MicroPython support is deactivated.</h3>")) self.setEnabled(False) return self.__vt100Re = re.compile( r'(?P<count>\d*)(?P<color>(?:;?\d*)*)(?P<action>[ABCDKm])') self.__populateDeviceTypeComboBox() self.replEdit.installEventFilter(self) # Hack to intercept middle button paste self.__origReplEditMouseReleaseEvent = self.replEdit.mouseReleaseEvent self.replEdit.mouseReleaseEvent = self.__replEditMouseReleaseEvent self.replEdit.customContextMenuRequested.connect( self.__showContextMenu) self.__ui.preferencesChanged.connect(self.__handlePreferencesChanged) self.__ui.preferencesChanged.connect( self.__interface.handlePreferencesChanged) self.__handlePreferencesChanged() charFormat = self.replEdit.currentCharFormat() self.DefaultForeground = charFormat.foreground() self.DefaultBackground = charFormat.background() def __populateDeviceTypeComboBox(self): """ Private method to populate the device type selector. """ currentDevice = self.deviceTypeComboBox.currentText() self.deviceTypeComboBox.clear() self.deviceInfoLabel.clear() self.deviceTypeComboBox.addItem("", "") devices, unknownDevices, unknownPorts = ( MicroPythonDevices.getFoundDevices() ) if devices: supportedMessage = self.tr( "%n supported device(s) detected.", "", len(devices)) for index, (boardType, boardName, description, portName, vid, pid) in enumerate(sorted(devices), 1): self.deviceTypeComboBox.addItem( self.tr("{0} - {1} ({2})", "board name, description, port name") .format(boardName, description, portName) ) self.deviceTypeComboBox.setItemData( index, boardType, self.DeviceTypeRole) self.deviceTypeComboBox.setItemData( index, boardName, self.DeviceBoardRole) self.deviceTypeComboBox.setItemData( index, portName, self.DevicePortRole) self.deviceTypeComboBox.setItemData( index, vid, self.DeviceVidRole) self.deviceTypeComboBox.setItemData( index, pid, self.DevicePidRole) else: supportedMessage = self.tr("No supported devices detected.") self.__unknownPorts = unknownPorts if self.__unknownPorts: unknownMessage = self.tr( "\n%n unknown device(s) for manual selection.", "", len(self.__unknownPorts)) if self.deviceTypeComboBox.count(): self.deviceTypeComboBox.insertSeparator( self.deviceTypeComboBox.count()) self.deviceTypeComboBox.addItem(self.tr("Manual Selection")) self.deviceTypeComboBox.setItemData( self.deviceTypeComboBox.count() - 1, self.ManualMarker, self.DeviceTypeRole) else: unknownMessage = "" self.deviceInfoLabel.setText(supportedMessage + unknownMessage) index = self.deviceTypeComboBox.findText(currentDevice, Qt.MatchFlag.MatchExactly) if index == -1: # entry is no longer present index = 0 if self.__connected: # we are still connected, so disconnect self.on_connectButton_clicked() self.on_deviceTypeComboBox_activated(index) self.deviceTypeComboBox.setCurrentIndex(index) if unknownDevices: ignoredUnknown = { tuple(d) for d in Preferences.getMicroPython("IgnoredUnknownDevices") } uf2Devices = {(*x[2], x[1]) for x in UF2FlashDialog.getFoundDevices()} newUnknownDevices = ( set(unknownDevices) - ignoredUnknown - uf2Devices ) if newUnknownDevices: button = E5MessageBox.information( self, self.tr("Unknown MicroPython Device"), self.tr( '<p>Detected these unknown serial devices</p>' '<ul>' '<li>{0}</li>' '</ul>' '<p>Please report them together with the board name' ' and a short description to <a href="mailto:{1}">' ' the eric bug reporting address</a> if it is a' ' MicroPython board.</p>' ).format("</li><li>".join([ self.tr("{0} (0x{1:04x}/0x{2:04x})", "description, VId, PId").format( desc, vid, pid) for vid, pid, desc in newUnknownDevices]), BugAddress), E5MessageBox.StandardButtons( E5MessageBox.Ignore | E5MessageBox.Ok ) ) if button == E5MessageBox.Ignore: ignoredUnknown = list(ignoredUnknown | newUnknownDevices) Preferences.setMicroPython("IgnoredUnknownDevices", ignoredUnknown) else: yes = E5MessageBox.yesNo( self, self.tr("Unknown MicroPython Device"), self.tr("""Would you like to add them to the list of""" """ manually configured devices?"""), yesDefault=True) if yes: self.__addUnknownDevices(list(newUnknownDevices)) def __handlePreferencesChanged(self): """ Private slot to handle a change in preferences. """ self.__colorScheme = Preferences.getMicroPython("ColorScheme") self.__font = Preferences.getEditorOtherFonts("MonospacedFont") self.replEdit.setFontFamily(self.__font.family()) self.replEdit.setFontPointSize(self.__font.pointSize()) if Preferences.getMicroPython("ReplLineWrap"): self.replEdit.setLineWrapMode(QTextEdit.LineWrapMode.WidgetWidth) else: self.replEdit.setLineWrapMode(QTextEdit.LineWrapMode.NoWrap) if self.__chartWidget is not None: self.__chartWidget.preferencesChanged() def commandsInterface(self): """ Public method to get a reference to the commands interface object. @return reference to the commands interface object @rtype MicroPythonCommandsInterface """ return self.__interface def isMicrobit(self): """ Public method to check, if the connected/selected device is a BBC micro:bit or Calliope mini. @return flag indicating a micro:bit device rtype bool """ if self.__device and ( "micro:bit" in self.__device.deviceName() or "Calliope" in self.__device.deviceName() ): return True return False @pyqtSlot(int) def on_deviceTypeComboBox_activated(self, index): """ Private slot handling the selection of a device type. @param index index of the selected device @type int """ deviceType = self.deviceTypeComboBox.itemData( index, self.DeviceTypeRole) if deviceType == self.ManualMarker: self.connectButton.setEnabled(bool(self.__unknownPorts)) else: self.deviceIconLabel.setPixmap(MicroPythonDevices.getDeviceIcon( deviceType, False)) vid = self.deviceTypeComboBox.itemData( index, self.DeviceVidRole) pid = self.deviceTypeComboBox.itemData( index, self.DevicePidRole) self.__device = MicroPythonDevices.getDevice(deviceType, self, vid, pid) self.__device.setButtons() self.connectButton.setEnabled(bool(deviceType)) @pyqtSlot() def on_checkButton_clicked(self): """ Private slot to check for connected devices. """ self.__populateDeviceTypeComboBox() def setActionButtons(self, **kwargs): """ Public method to set the enabled state of the various action buttons. @keyparam kwargs keyword arguments containg the enabled states (keys are 'run', 'repl', 'files', 'chart', 'open', 'save' @type dict """ if "open" in kwargs: self.openButton.setEnabled(kwargs["open"]) if "save" in kwargs: self.saveButton.setEnabled(kwargs["save"]) if "run" in kwargs: self.runButton.setEnabled(kwargs["run"]) if "repl" in kwargs: self.replButton.setEnabled(kwargs["repl"]) if "files" in kwargs: self.filesButton.setEnabled(kwargs["files"]) if "chart" in kwargs: self.chartButton.setEnabled(kwargs["chart"] and HAS_QTCHART) @pyqtSlot(QPoint) def __showContextMenu(self, pos): """ Private slot to show the REPL context menu. @param pos position to show the menu at @type QPoint """ if Globals.isMacPlatform(): copyKeys = QKeySequence(Qt.Modifier.CTRL + Qt.Key.Key_C) pasteKeys = QKeySequence(Qt.Modifier.CTRL + Qt.Key.Key_V) else: copyKeys = QKeySequence( Qt.Modifier.CTRL + Qt.Modifier.SHIFT + Qt.Key.Key_C) pasteKeys = QKeySequence( Qt.Modifier.CTRL + Qt.Modifier.SHIFT + Qt.Key.Key_V) menu = QMenu(self) menu.addAction(self.tr("Clear"), self.__clear) menu.addSeparator() menu.addAction(self.tr("Copy"), self.replEdit.copy, copyKeys) menu.addAction(self.tr("Paste"), self.__paste, pasteKeys) menu.addSeparator() menu.exec(self.replEdit.mapToGlobal(pos)) def __setConnected(self, connected): """ Private method to set the connection status LED. @param connected connection state @type bool """ self.__connected = connected self.deviceConnectedLed.setOn(connected) if self.__fileManagerWidget: self.__fileManagerWidget.deviceConnectedLed.setOn(connected) self.deviceTypeComboBox.setEnabled(not connected) if connected: self.connectButton.setIcon( UI.PixmapCache.getIcon("linkDisconnect")) self.connectButton.setToolTip(self.tr( "Press to disconnect the current device")) else: self.connectButton.setIcon( UI.PixmapCache.getIcon("linkConnect")) self.connectButton.setToolTip(self.tr( "Press to connect the selected device")) def isConnected(self): """ Public method to get the connection state. @return connection state @rtype bool """ return self.__connected def __showNoDeviceMessage(self): """ Private method to show a message dialog indicating a missing device. """ E5MessageBox.critical( self, self.tr("No device attached"), self.tr("""Please ensure the device is plugged into your""" """ computer and selected.\n\nIt must have a version""" """ of MicroPython (or CircuitPython) flashed onto""" """ it before anything will work.\n\nFinally press""" """ the device's reset button and wait a few seconds""" """ before trying again.""")) @pyqtSlot(bool) def on_replButton_clicked(self, checked): """ Private slot to connect to enable or disable the REPL widget. If the selected device is not connected yet, this will be done now. @param checked state of the button @type bool """ if not self.__device: self.__showNoDeviceMessage() return if checked: ok, reason = self.__device.canStartRepl() if not ok: E5MessageBox.warning( self, self.tr("Start REPL"), self.tr("""<p>The REPL cannot be started.</p><p>Reason:""" """ {0}</p>""").format(reason)) return self.replEdit.clear() self.__interface.dataReceived.connect(self.__processData) if not self.__interface.isConnected(): self.__connectToDevice() if self.__device.forceInterrupt(): # send a Ctrl-B (exit raw mode) self.__interface.write(b'\x02') # send Ctrl-C (keyboard interrupt) self.__interface.write(b'\x03') self.__device.setRepl(True) self.replEdit.setFocus(Qt.FocusReason.OtherFocusReason) else: self.__interface.dataReceived.disconnect(self.__processData) if (not self.chartButton.isChecked() and not self.filesButton.isChecked()): self.__disconnectFromDevice() self.__device.setRepl(False) self.replButton.setChecked(checked) @pyqtSlot() def on_connectButton_clicked(self): """ Private slot to connect to the selected device or disconnect from the currently connected device. """ if self.__connected: with E5OverrideCursor(): self.__disconnectFromDevice() if self.replButton.isChecked(): self.on_replButton_clicked(False) if self.filesButton.isChecked(): self.on_filesButton_clicked(False) if self.chartButton.isChecked(): self.on_chartButton_clicked(False) else: with E5OverrideCursor(): self.__connectToDevice() @pyqtSlot() def __clear(self): """ Private slot to clear the REPL pane. """ self.replEdit.clear() self.__interface.isConnected() and self.__interface.write(b"\r") @pyqtSlot() def __paste(self, mode=QClipboard.Mode.Clipboard): """ Private slot to perform a paste operation. @param mode paste mode (defaults to QClipboard.Mode.Clipboard) @type QClipboard.Mode (optional) """ # add support for paste by mouse middle button clipboard = QApplication.clipboard() if clipboard: pasteText = clipboard.text(mode=mode) if pasteText: pasteText = pasteText.replace('\n\r', '\r') pasteText = pasteText.replace('\n', '\r') self.__interface.isConnected() and self.__interface.write( pasteText.encode("utf-8")) def eventFilter(self, obj, evt): """ Public method to process events for the REPL pane. @param obj reference to the object the event was meant for @type QObject @param evt reference to the event object @type QEvent @return flag to indicate that the event was handled @rtype bool """ if obj is self.replEdit and evt.type() == QEvent.Type.KeyPress: # handle the key press event on behalve of the REPL pane key = evt.key() msg = bytes(evt.text(), 'utf8') if key == Qt.Key.Key_Backspace: msg = b'\b' elif key == Qt.Key.Key_Delete: msg = b'\x1B[\x33\x7E' elif key == Qt.Key.Key_Up: msg = b'\x1B[A' elif key == Qt.Key.Key_Down: msg = b'\x1B[B' elif key == Qt.Key.Key_Right: msg = b'\x1B[C' elif key == Qt.Key.Key_Left: msg = b'\x1B[D' elif key == Qt.Key.Key_Home: msg = b'\x1B[H' elif key == Qt.Key.Key_End: msg = b'\x1B[F' elif ((Globals.isMacPlatform() and evt.modifiers() == Qt.KeyboardModifier.MetaModifier) or (not Globals.isMacPlatform() and evt.modifiers() == Qt.KeyboardModifier.ControlModifier)): if Qt.Key.Key_A <= key <= Qt.Key.Key_Z: # devices treat an input of \x01 as Ctrl+A, etc. msg = bytes([1 + key - Qt.Key.Key_A]) elif ( evt.modifiers() == ( Qt.KeyboardModifier.ControlModifier | Qt.KeyboardModifier.ShiftModifier) or (Globals.isMacPlatform() and evt.modifiers() == Qt.KeyboardModifier.ControlModifier) ): if key == Qt.Key.Key_C: self.replEdit.copy() msg = b'' elif key == Qt.Key.Key_V: self.__paste() msg = b'' elif key in (Qt.Key.Key_Return, Qt.Key.Key_Enter): tc = self.replEdit.textCursor() tc.movePosition(QTextCursor.MoveOperation.EndOfLine) self.replEdit.setTextCursor(tc) self.__interface.isConnected() and self.__interface.write(msg) return True else: # standard event processing return super().eventFilter(obj, evt) def __replEditMouseReleaseEvent(self, evt): """ Private method handling mouse release events for the replEdit widget. Note: this is a hack because QTextEdit does not allow filtering of QEvent.Type.MouseButtonRelease. To make middle button paste work, we had to intercept the protected event method (some kind of reimplementing it). @param evt reference to the event object @type QMouseEvent """ if evt.button() == Qt.MouseButton.MiddleButton: self.__paste(mode=QClipboard.Mode.Selection) msg = b'' if self.__interface.isConnected(): self.__interface.write(msg) evt.accept() else: self.__origReplEditMouseReleaseEvent(evt) def __processData(self, data): """ Private slot to process bytes received from the device. @param data bytes received from the device @type bytes """ tc = self.replEdit.textCursor() # the text cursor must be on the last line while tc.movePosition(QTextCursor.MoveOperation.Down): pass # set the font charFormat = tc.charFormat() charFormat.setFontFamily(self.__font.family()) charFormat.setFontPointSize(self.__font.pointSize()) tc.setCharFormat(charFormat) index = 0 while index < len(data): if data[index] == 8: # \b tc.movePosition(QTextCursor.MoveOperation.Left) self.replEdit.setTextCursor(tc) elif data[index] in (4, 13): # EOT, \r pass elif (len(data) > index + 1 and data[index] == 27 and data[index + 1] == 91): # VT100 cursor command detected: <Esc>[ index += 2 # move index to after the [ match = self.__vt100Re.search(data[index:].decode("utf-8")) if match: # move to last position in control sequence # ++ will be done at end of loop index += match.end() - 1 action = match.group("action") if action in "ABCD": if match.group("count") == "": count = 1 else: count = int(match.group("count")) if action == "A": # up tc.movePosition(QTextCursor.MoveOperation.Up, n=count) self.replEdit.setTextCursor(tc) elif action == "B": # down tc.movePosition(QTextCursor.MoveOperation.Down, n=count) self.replEdit.setTextCursor(tc) elif action == "C": # right tc.movePosition(QTextCursor.MoveOperation.Right, n=count) self.replEdit.setTextCursor(tc) elif action == "D": # left tc.movePosition(QTextCursor.MoveOperation.Left, n=count) self.replEdit.setTextCursor(tc) elif action == "K": # delete things if match.group("count") in ("", "0"): # delete to end of line tc.movePosition( QTextCursor.MoveOperation.EndOfLine, mode=QTextCursor.MoveMode.KeepAnchor) tc.removeSelectedText() self.replEdit.setTextCursor(tc) elif match.group("count") == "1": # delete to beinning of line tc.movePosition( QTextCursor.MoveOperation.StartOfLine, mode=QTextCursor.MoveMode.KeepAnchor) tc.removeSelectedText() self.replEdit.setTextCursor(tc) elif match.group("count") == "2": # delete whole line tc.movePosition( QTextCursor.MoveOperation.EndOfLine) tc.movePosition( QTextCursor.MoveOperation.StartOfLine, mode=QTextCursor.MoveMode.KeepAnchor) tc.removeSelectedText() self.replEdit.setTextCursor(tc) elif action == "m": self.__setCharFormat(match.group(0)[:-1].split(";"), tc) else: tc.deleteChar() self.replEdit.setTextCursor(tc) self.replEdit.insertPlainText(chr(data[index])) index += 1 self.replEdit.ensureCursorVisible() def __setCharFormat(self, formatCodes, textCursor): """ Private method setting the current text format of the REPL pane based on the passed ANSI codes. Following codes are used: <ul> <li>0: Reset</li> <li>1: Bold font (weight 75)</li> <li>2: Light font (weight 25)</li> <li>3: Italic font</li> <li>4: Underlined font</li> <li>9: Strikeout font</li> <li>21: Bold off (weight 50)</li> <li>22: Light off (weight 50)</li> <li>23: Italic off</li> <li>24: Underline off</li> <li>29: Strikeout off</li> <li>30: foreground Black</li> <li>31: foreground Dark Red</li> <li>32: foreground Dark Green</li> <li>33: foreground Dark Yellow</li> <li>34: foreground Dark Blue</li> <li>35: foreground Dark Magenta</li> <li>36: foreground Dark Cyan</li> <li>37: foreground Light Gray</li> <li>39: reset foreground to default</li> <li>40: background Black</li> <li>41: background Dark Red</li> <li>42: background Dark Green</li> <li>43: background Dark Yellow</li> <li>44: background Dark Blue</li> <li>45: background Dark Magenta</li> <li>46: background Dark Cyan</li> <li>47: background Light Gray</li> <li>49: reset background to default</li> <li>53: Overlined font</li> <li>55: Overline off</li> <li>90: bright foreground Dark Gray</li> <li>91: bright foreground Red</li> <li>92: bright foreground Green</li> <li>93: bright foreground Yellow</li> <li>94: bright foreground Blue</li> <li>95: bright foreground Magenta</li> <li>96: bright foreground Cyan</li> <li>97: bright foreground White</li> <li>100: bright background Dark Gray</li> <li>101: bright background Red</li> <li>102: bright background Green</li> <li>103: bright background Yellow</li> <li>104: bright background Blue</li> <li>105: bright background Magenta</li> <li>106: bright background Cyan</li> <li>107: bright background White</li> </ul> @param formatCodes list of format codes @type list of str @param textCursor reference to the text cursor @type QTextCursor """ if not formatCodes: # empty format codes list is treated as a reset formatCodes = ["0"] charFormat = textCursor.charFormat() for formatCode in formatCodes: try: formatCode = int(formatCode) except ValueError: # ignore non digit values continue if formatCode == 0: charFormat.setFontWeight(50) charFormat.setFontItalic(False) charFormat.setFontUnderline(False) charFormat.setFontStrikeOut(False) charFormat.setFontOverline(False) charFormat.setForeground(self.DefaultForeground) charFormat.setBackground(self.DefaultBackground) elif formatCode == 1: charFormat.setFontWeight(75) elif formatCode == 2: charFormat.setFontWeight(25) elif formatCode == 3: charFormat.setFontItalic(True) elif formatCode == 4: charFormat.setFontUnderline(True) elif formatCode == 9: charFormat.setFontStrikeOut(True) elif formatCode in (21, 22): charFormat.setFontWeight(50) elif formatCode == 23: charFormat.setFontItalic(False) elif formatCode == 24: charFormat.setFontUnderline(False) elif formatCode == 29: charFormat.setFontStrikeOut(False) elif formatCode == 53: charFormat.setFontOverline(True) elif formatCode == 55: charFormat.setFontOverline(False) elif formatCode in (30, 31, 32, 33, 34, 35, 36, 37): charFormat.setForeground( AnsiColorSchemes[self.__colorScheme][formatCode - 30]) elif formatCode in (40, 41, 42, 43, 44, 45, 46, 47): charFormat.setBackground( AnsiColorSchemes[self.__colorScheme][formatCode - 40]) elif formatCode in (90, 91, 92, 93, 94, 95, 96, 97): charFormat.setForeground( AnsiColorSchemes[self.__colorScheme][formatCode - 80]) elif formatCode in (100, 101, 102, 103, 104, 105, 106, 107): charFormat.setBackground( AnsiColorSchemes[self.__colorScheme][formatCode - 90]) elif formatCode == 39: charFormat.setForeground(self.DefaultForeground) elif formatCode == 49: charFormat.setBackground(self.DefaultBackground) textCursor.setCharFormat(charFormat) def __doZoom(self, value): """ Private slot to zoom the REPL pane. @param value zoom value @type int """ if value < self.__currentZoom: self.replEdit.zoomOut(self.__currentZoom - value) elif value > self.__currentZoom: self.replEdit.zoomIn(value - self.__currentZoom) self.__currentZoom = value def getCurrentPort(self): """ Public method to determine the port path of the selected device. @return path of the port of the selected device @rtype str """ portName = self.deviceTypeComboBox.currentData(self.DevicePortRole) if portName: if Globals.isWindowsPlatform(): # return it unchanged return portName else: # return with device path prepended return "/dev/{0}".format(portName) else: return "" def getCurrentBoard(self): """ Public method to get the board name of the selected device. @return board name of the selected device @rtype str """ boardName = self.deviceTypeComboBox.currentData(self.DeviceBoardRole) return boardName def getDeviceWorkspace(self): """ Public method to get the workspace directory of the device. @return workspace directory of the device @rtype str """ if self.__device: return self.__device.getWorkspace() else: return "" def __connectToDevice(self): """ Private method to connect to the selected device. """ port = self.getCurrentPort() if not port: from .ConnectionSelectionDialog import ConnectionSelectionDialog with E5OverridenCursor(): dlg = ConnectionSelectionDialog( self.__unknownPorts, self.__lastPort, self.__lastDeviceType ) if dlg.exec() == QDialog.DialogCode.Accepted: vid, pid, port, deviceType = dlg.getData() self.deviceIconLabel.setPixmap( MicroPythonDevices.getDeviceIcon(deviceType, False)) self.__device = MicroPythonDevices.getDevice( deviceType, self, vid, pid) self.__device.setButtons() self.__lastPort = port self.__lastDeviceType = deviceType else: return if self.__interface.connectToDevice(port): self.__setConnected(True) if (Preferences.getMicroPython("SyncTimeAfterConnect") and self.__device.hasTimeCommands()): self.__synchronizeTime(quiet=True) else: with E5OverridenCursor(): E5MessageBox.warning( self, self.tr("Serial Device Connect"), self.tr("""<p>Cannot connect to device at serial""" """ port <b>{0}</b>.</p>""").format(port)) def __disconnectFromDevice(self): """ Private method to disconnect from the device. """ self.__interface.disconnectFromDevice() self.__setConnected(False) @pyqtSlot() def on_runButton_clicked(self): """ Private slot to execute the script of the active editor on the selected device. If the REPL is not active yet, it will be activated, which might cause an unconnected device to be connected. """ if not self.__device: self.__showNoDeviceMessage() return aw = e5App().getObject("ViewManager").activeWindow() if aw is None: E5MessageBox.critical( self, self.tr("Run Script"), self.tr("""There is no editor open. Abort...""")) return script = aw.text() if not script: E5MessageBox.critical( self, self.tr("Run Script"), self.tr("""The current editor does not contain a script.""" """ Abort...""")) return ok, reason = self.__device.canRunScript() if not ok: E5MessageBox.warning( self, self.tr("Run Script"), self.tr("""<p>Cannot run script.</p><p>Reason:""" """ {0}</p>""").format(reason)) return if not self.replButton.isChecked(): # activate on the REPL self.on_replButton_clicked(True) if self.replButton.isChecked(): self.__device.runScript(script) @pyqtSlot() def on_openButton_clicked(self): """ Private slot to open a file of the connected device. """ if not self.__device: self.__showNoDeviceMessage() return workspace = self.getDeviceWorkspace() if workspace: fileName = E5FileDialog.getOpenFileName( self, self.tr("Open Python File"), workspace, self.tr("Python3 Files (*.py);;All Files (*)")) if fileName: e5App().getObject("ViewManager").openSourceFile(fileName) @pyqtSlot() def on_saveButton_clicked(self): """ Private slot to save the current editor to the connected device. """ if not self.__device: self.__showNoDeviceMessage() return aw = e5App().getObject("ViewManager").activeWindow() if aw: workspace = self.getDeviceWorkspace() if workspace: aw.saveFileAs(workspace) @pyqtSlot(bool) def on_chartButton_clicked(self, checked): """ Private slot to open a chart view to plot data received from the connected device. If the selected device is not connected yet, this will be done now. @param checked state of the button @type bool """ if not HAS_QTCHART: # QtChart not available => fail silently return if not self.__device: self.__showNoDeviceMessage() return if checked: ok, reason = self.__device.canStartPlotter() if not ok: E5MessageBox.warning( self, self.tr("Start Chart"), self.tr("""<p>The Chart cannot be started.</p><p>Reason:""" """ {0}</p>""").format(reason)) return self.__chartWidget = MicroPythonGraphWidget(self) self.__interface.dataReceived.connect( self.__chartWidget.processData) self.__chartWidget.dataFlood.connect( self.handleDataFlood) self.__ui.addSideWidget(self.__ui.BottomSide, self.__chartWidget, UI.PixmapCache.getIcon("chart"), self.tr("µPy Chart")) self.__ui.showSideWidget(self.__chartWidget) if not self.__interface.isConnected(): self.__connectToDevice() if self.__device.forceInterrupt(): # send a Ctrl-B (exit raw mode) self.__interface.write(b'\x02') # send Ctrl-C (keyboard interrupt) self.__interface.write(b'\x03') self.__device.setPlotter(True) else: if self.__chartWidget.isDirty(): res = E5MessageBox.okToClearData( self, self.tr("Unsaved Chart Data"), self.tr("""The chart contains unsaved data."""), self.__chartWidget.saveData) if not res: # abort return self.__interface.dataReceived.disconnect( self.__chartWidget.processData) self.__chartWidget.dataFlood.disconnect( self.handleDataFlood) if (not self.replButton.isChecked() and not self.filesButton.isChecked()): self.__disconnectFromDevice() self.__device.setPlotter(False) self.__ui.removeSideWidget(self.__chartWidget) self.__chartWidget.deleteLater() self.__chartWidget = None self.chartButton.setChecked(checked) @pyqtSlot() def handleDataFlood(self): """ Public slot handling a data flood from the device. """ self.on_connectButton_clicked() self.__device.handleDataFlood() @pyqtSlot(bool) def on_filesButton_clicked(self, checked): """ Private slot to open a file manager window to the connected device. If the selected device is not connected yet, this will be done now. @param checked state of the button @type bool """ if not self.__device: self.__showNoDeviceMessage() return if checked: ok, reason = self.__device.canStartFileManager() if not ok: E5MessageBox.warning( self, self.tr("Start File Manager"), self.tr("""<p>The File Manager cannot be started.</p>""" """<p>Reason: {0}</p>""").format(reason)) return with E5OverrideCursor(): if not self.__interface.isConnected(): self.__connectToDevice() if self.__connected: self.__fileManagerWidget = MicroPythonFileManagerWidget( self.__interface, self.__device.supportsLocalFileAccess(), self) self.__ui.addSideWidget( self.__ui.BottomSide, self.__fileManagerWidget, UI.PixmapCache.getIcon("filemanager"), self.tr("µPy Files") ) self.__ui.showSideWidget(self.__fileManagerWidget) self.__device.setFileManager(True) self.__fileManagerWidget.start() else: self.__fileManagerWidget.stop() if (not self.replButton.isChecked() and not self.chartButton.isChecked()): self.__disconnectFromDevice() self.__device.setFileManager(False) self.__ui.removeSideWidget(self.__fileManagerWidget) self.__fileManagerWidget.deleteLater() self.__fileManagerWidget = None self.filesButton.setChecked(checked) ################################################################## ## Super Menu related methods below ################################################################## def __aboutToShowSuperMenu(self): """ Private slot to populate the Super Menu before showing it. """ self.__superMenu.clear() # prepare the download menu if self.__device: menuEntries = self.__device.getDownloadMenuEntries() if menuEntries: downloadMenu = QMenu(self.tr("Downloads"), self.__superMenu) for text, url in menuEntries: if text == "<separator>": downloadMenu.addSeparator() else: downloadMenu.addAction( text, functools.partial(self.__downloadFromUrl, url) ) else: downloadMenu = None # populate the super menu hasTime = self.__device.hasTimeCommands() if self.__device else False act = self.__superMenu.addAction( self.tr("Show Version"), self.__showDeviceVersion) act.setEnabled(self.__connected) act = self.__superMenu.addAction( self.tr("Show Implementation"), self.__showImplementation) act.setEnabled(self.__connected) self.__superMenu.addSeparator() if hasTime: act = self.__superMenu.addAction( self.tr("Synchronize Time"), self.__synchronizeTime) act.setEnabled(self.__connected) act = self.__superMenu.addAction( self.tr("Show Device Time"), self.__showDeviceTime) act.setEnabled(self.__connected) self.__superMenu.addAction( self.tr("Show Local Time"), self.__showLocalTime) if hasTime: act = self.__superMenu.addAction( self.tr("Show Time"), self.__showLocalAndDeviceTime) act.setEnabled(self.__connected) self.__superMenu.addSeparator() if not Globals.isWindowsPlatform(): available = self.__mpyCrossAvailable() act = self.__superMenu.addAction( self.tr("Compile Python File"), self.__compileFile2Mpy) act.setEnabled(available) act = self.__superMenu.addAction( self.tr("Compile Current Editor"), self.__compileEditor2Mpy) aw = e5App().getObject("ViewManager").activeWindow() act.setEnabled(available and bool(aw)) self.__superMenu.addSeparator() if self.__device: self.__device.addDeviceMenuEntries(self.__superMenu) self.__superMenu.addSeparator() if downloadMenu is None: # generic download action act = self.__superMenu.addAction( self.tr("Download Firmware"), self.__downloadFirmware) act.setEnabled(self.__device.hasFirmwareUrl()) else: # download sub-menu self.__superMenu.addMenu(downloadMenu) self.__superMenu.addSeparator() act = self.__superMenu.addAction( self.tr("Show Documentation"), self.__showDocumentation) act.setEnabled(self.__device.hasDocumentationUrl()) self.__superMenu.addSeparator() if not self.__device.hasFlashMenuEntry(): self.__superMenu.addAction(self.tr("Flash UF2 Device"), self.__flashUF2) self.__superMenu.addSeparator() self.__superMenu.addAction(self.tr("Manage Unknown Devices"), self.__manageUnknownDevices) self.__superMenu.addAction(self.tr("Ignored Serial Devices"), self.__manageIgnored) self.__superMenu.addSeparator() self.__superMenu.addAction(self.tr("Configure"), self.__configure) @pyqtSlot() def __showDeviceVersion(self): """ Private slot to show some version info about MicroPython of the device. """ try: versionInfo = self.__interface.version() if versionInfo: msg = self.tr( "<h3>Device Version Information</h3>" ) msg += "<table>" for key, value in versionInfo.items(): msg += "<tr><td><b>{0}</b></td><td>{1}</td></tr>".format( key.capitalize(), value) msg += "</table>" else: msg = self.tr("No version information available.") E5MessageBox.information( self, self.tr("Device Version Information"), msg) except Exception as exc: self.__showError("version()", str(exc)) @pyqtSlot() def __showImplementation(self): """ Private slot to show some implementation related information. """ try: impInfo = self.__interface.getImplementation() if impInfo["name"] == "micropython": name = "MicroPython" elif impInfo["name"] == "circuitpython": name = "CircuitPython" elif impInfo["name"] == "unknown": name = self.tr("unknown") else: name = impInfo["name"] version = ( self.tr("unknown") if impInfo["version"] == "unknown" else impInfo["version"] ) E5MessageBox.information( self, self.tr("Device Implementation Information"), self.tr( "<h3>Device Implementation Information</h3>" "<p>This device contains <b>{0} {1}</b>.</p>" ).format(name, version) ) except Exception as exc: self.__showError("getImplementation()", str(exc)) @pyqtSlot() def __synchronizeTime(self, quiet=False): """ Private slot to set the time of the connected device to the local computer's time. @param quiet flag indicating to not show a message @type bool """ if self.__device and self.__device.hasTimeCommands(): try: self.__interface.syncTime(self.__device.getDeviceType()) if not quiet: with E5OverridenCursor(): E5MessageBox.information( self, self.tr("Synchronize Time"), self.tr("<p>The time of the connected device was" " synchronized with the local time.</p>") + self.__getDeviceTime() ) except Exception as exc: self.__showError("syncTime()", str(exc)) def __getDeviceTime(self): """ Private method to get a string containing the date and time of the connected device. @return date and time of the connected device @rtype str """ if self.__device and self.__device.hasTimeCommands(): try: dateTimeString = self.__interface.getTime() try: date, time = dateTimeString.strip().split(None, 1) return self.tr( "<h3>Device Date and Time</h3>" "<table>" "<tr><td><b>Date</b></td><td>{0}</td></tr>" "<tr><td><b>Time</b></td><td>{1}</td></tr>" "</table>" ).format(date, time) except ValueError: return self.tr( "<h3>Device Date and Time</h3>" "<p>{0}</p>" ).format(dateTimeString.strip()) except Exception as exc: self.__showError("getTime()", str(exc)) return "" else: return "" @pyqtSlot() def __showDeviceTime(self): """ Private slot to show the date and time of the connected device. """ msg = self.__getDeviceTime() if msg: E5MessageBox.information( self, self.tr("Device Date and Time"), msg) @pyqtSlot() def __showLocalTime(self): """ Private slot to show the local date and time. """ localdatetime = time.localtime() localdate = time.strftime('%Y-%m-%d', localdatetime) localtime = time.strftime('%H:%M:%S', localdatetime) E5MessageBox.information( self, self.tr("Local Date and Time"), self.tr("<h3>Local Date and Time</h3>" "<table>" "<tr><td><b>Date</b></td><td>{0}</td></tr>" "<tr><td><b>Time</b></td><td>{1}</td></tr>" "</table>" ).format(localdate, localtime) ) @pyqtSlot() def __showLocalAndDeviceTime(self): """ Private slot to show the local and device time side-by-side. """ localdatetime = time.localtime() localdate = time.strftime('%Y-%m-%d', localdatetime) localtime = time.strftime('%H:%M:%S', localdatetime) try: deviceDateTimeString = self.__interface.getTime() try: devicedate, devicetime = ( deviceDateTimeString.strip().split(None, 1) ) E5MessageBox.information( self, self.tr("Date and Time"), self.tr("<table>" "<tr><th></th><th>Local Date and Time</th>" "<th>Device Date and Time</th></tr>" "<tr><td><b>Date</b></td>" "<td align='center'>{0}</td>" "<td align='center'>{2}</td></tr>" "<tr><td><b>Time</b></td>" "<td align='center'>{1}</td>" "<td align='center'>{3}</td></tr>" "</table>" ).format(localdate, localtime, devicedate, devicetime) ) except ValueError: E5MessageBox.information( self, self.tr("Date and Time"), self.tr("<table>" "<tr><th>Local Date and Time</th>" "<th>Device Date and Time</th></tr>" "<tr><td align='center'>{0} {1}</td>" "<td align='center'>{2}</td></tr>" "</table>" ).format(localdate, localtime, deviceDateTimeString.strip()) ) except Exception as exc: self.__showError("getTime()", str(exc)) def __showError(self, method, error): """ Private method to show some error message. @param method name of the method the error occured in @type str @param error error message @type str """ with E5OverridenCursor(): E5MessageBox.warning( self, self.tr("Error handling device"), self.tr("<p>There was an error communicating with the" " connected device.</p><p>Method: {0}</p>" "<p>Message: {1}</p>") .format(method, error)) def __mpyCrossAvailable(self): """ Private method to check the availability of mpy-cross. @return flag indicating the availability of mpy-cross @rtype bool """ available = False program = Preferences.getMicroPython("MpyCrossCompiler") if not program: program = "mpy-cross" if Utilities.isinpath(program): available = True else: if Utilities.isExecutable(program): available = True return available def __crossCompile(self, pythonFile="", title=""): """ Private method to cross compile a Python file to a .mpy file. @param pythonFile name of the Python file to be compiled @type str @param title title for the various dialogs @type str """ program = Preferences.getMicroPython("MpyCrossCompiler") if not program: program = "mpy-cross" if not Utilities.isinpath(program): E5MessageBox.critical( self, title, self.tr("""The MicroPython cross compiler""" """ <b>mpy-cross</b> cannot be found. Ensure it""" """ is in the search path or configure it on""" """ the MicroPython configuration page.""")) return if not pythonFile: defaultDirectory = "" aw = e5App().getObject("ViewManager").activeWindow() if aw: fn = aw.getFileName() if fn: defaultDirectory = os.path.dirname(fn) if not defaultDirectory: defaultDirectory = ( Preferences.getMicroPython("MpyWorkspace") or Preferences.getMultiProject("Workspace") or os.path.expanduser("~") ) pythonFile = E5FileDialog.getOpenFileName( self, title, defaultDirectory, self.tr("Python Files (*.py);;All Files (*)")) if not pythonFile: # user cancelled return if not os.path.exists(pythonFile): E5MessageBox.critical( self, title, self.tr("""The Python file <b>{0}</b> does not exist.""" """ Aborting...""").format(pythonFile)) return compileArgs = [ pythonFile, ] dlg = E5ProcessDialog(self.tr("'mpy-cross' Output"), title) res = dlg.startProcess(program, compileArgs) if res: dlg.exec() @pyqtSlot() def __compileFile2Mpy(self): """ Private slot to cross compile a Python file (*.py) to a .mpy file. """ self.__crossCompile(title=self.tr("Compile Python File")) @pyqtSlot() def __compileEditor2Mpy(self): """ Private slot to cross compile the current editor to a .mpy file. """ aw = e5App().getObject("ViewManager").activeWindow() if not aw.checkDirty(): # editor still has unsaved changes, abort... return if not aw.isPyFile(): # no Python file E5MessageBox.critical( self, self.tr("Compile Current Editor"), self.tr("""The current editor does not contain a Python""" """ file. Aborting...""")) return self.__crossCompile( pythonFile=aw.getFileName(), title=self.tr("Compile Current Editor") ) @pyqtSlot() def __showDocumentation(self): """ Private slot to open the documentation URL for the selected device. """ if self.__device is None or not self.__device.hasDocumentationUrl(): # abort silently return url = self.__device.getDocumentationUrl() e5App().getObject("UserInterface").launchHelpViewer(url) @pyqtSlot() def __downloadFirmware(self): """ Private slot to open the firmware download page. """ if self.__device is None or not self.__device.hasFirmwareUrl(): # abort silently return self.__device.downloadFirmware() def __downloadFromUrl(self, url): """ Private method to open a web browser for the given URL. @param url URL to be opened @type str """ if self.__device is None: # abort silently return if url: e5App().getObject("UserInterface").launchHelpViewer(url) @pyqtSlot() def __manageIgnored(self): """ Private slot to manage the list of ignored serial devices. """ from .IgnoredDevicesDialog import IgnoredDevicesDialog dlg = IgnoredDevicesDialog( Preferences.getMicroPython("IgnoredUnknownDevices"), self) if dlg.exec() == QDialog.DialogCode.Accepted: ignoredDevices = dlg.getDevices() Preferences.setMicroPython("IgnoredUnknownDevices", ignoredDevices) @pyqtSlot() def __configure(self): """ Private slot to open the MicroPython configuration page. """ e5App().getObject("UserInterface").showPreferences("microPythonPage") @pyqtSlot() def __manageUnknownDevices(self): """ Private slot to manage manually added boards (i.e. those not in the list of supported boards). """ from .UnknownDevicesDialog import UnknownDevicesDialog dlg = UnknownDevicesDialog() dlg.exec() def __addUnknownDevices(self, devices): """ Private method to add devices to the list of manually added boards. @param devices list of not ignored but unknown devices @type list of tuple of (int, int, str) """ from .AddEditDevicesDialog import AddEditDevicesDialog if len(devices) > 1: from E5Gui.E5ListSelectionDialog import E5ListSelectionDialog sdlg = E5ListSelectionDialog( [d[2] for d in devices], title=self.tr("Add Unknown Devices"), message=self.tr("Select the devices to be added:"), checkBoxSelection=True ) if sdlg.exec() == QDialog.DialogCode.Accepted: selectedDevices = sdlg.getSelection() else: selectedDevices = devices[0][2] if selectedDevices: manualDevices = Preferences.getMicroPython("ManualDevices") for vid, pid, description in devices: if description in selectedDevices: dlg = AddEditDevicesDialog(vid, pid, description) if dlg.exec() == QDialog.DialogCode.Accepted: manualDevices.append(dlg.getDeviceDict()) Preferences.setMicroPython("ManualDevices", manualDevices) # rescan the ports self.__populateDeviceTypeComboBox() @pyqtSlot() def __flashUF2(self): """ Private slot to flash MicroPython/CircuitPython to a device support the UF2 bootloader. """ dlg = UF2FlashDialog.UF2FlashDialog() dlg.exec()
