"""
Contains the main Window definition for Mu's UI.

Copyright (c) 2015-2017 Nicholas H.Tollervey and others (see the AUTHORS file).

This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program.  If not, see <http://www.gnu.org/licenses/>.
"""
import sys
import logging
import os.path
from PyQt5.QtCore import QSize, Qt, pyqtSignal, QTimer, QThread
from PyQt5.QtWidgets import (
    QToolBar,
    QAction,
    QDesktopWidget,
    QWidget,
    QVBoxLayout,
    QTabWidget,
    QFileDialog,
    QMessageBox,
    QLabel,
    QMainWindow,
    QStatusBar,
    QDockWidget,
    QShortcut,
    QApplication,
    QTabBar,
    QPushButton,
    QHBoxLayout,
    QProgressDialog,
)
from PyQt5.QtGui import QKeySequence, QStandardItemModel, QCursor
from mu import __version__
from mu.interface.dialogs import (
    ModeSelector,
    AdminDialog,
    FindReplaceDialog,
    PackageDialog,
)
from mu.interface.themes import (
    DayTheme,
    NightTheme,
    ContrastTheme,
    DEFAULT_FONT_SIZE,
)
from mu.interface.panes import (
    DebugInspector,
    DebugInspectorItem,
    PythonProcessPane,
    JupyterREPLPane,
    MicroPythonREPLPane,
    FileSystemPane,
    PlotterPane,
    SnekREPLPane,
)
from mu.interface.editor import EditorPane
from mu.interface.widgets import DeviceSelector
from mu.interface.workers import PythonAnywhereWorker
from mu.resources import load_icon, load_pixmap


logger = logging.getLogger(__name__)


class ButtonBar(QToolBar):
    """
    Represents the bar of buttons across the top of the editor and defines
    their behaviour.
    """

    def __init__(self, parent):
        super().__init__(parent)
        self.setMovable(False)
        self.setIconSize(QSize(64, 64))
        self.setToolButtonStyle(3)
        self.setContextMenuPolicy(Qt.PreventContextMenu)
        self.setObjectName("StandardToolBar")
        self.reset()

    def reset(self):
        """
        Resets the button states.
        """
        self.slots = {}
        self.clear()

    def change_mode(self, mode):
        self.reset()
        self.addAction(
            name="modes",
            display_name=_("Mode"),
            tool_text=_("Change Mu's mode of behaviour."),
        )
        self.addSeparator()
        self.addAction(
            name="new",
            display_name=_("New"),
            tool_text=_("Create a new Python script."),
        )
        self.addAction(
            name="load",
            display_name=_("Load"),
            tool_text=_("Load a Python script."),
        )
        self.addAction(
            name="save",
            display_name=_("Save"),
            tool_text=_("Save the current Python script."),
        )
        self.addSeparator()

        for action in mode.actions():
            self.addAction(
                name=action["name"],
                display_name=action["display_name"],
                tool_text=action["description"],
            )

        self.addSeparator()
        self.addAction(
            name="zoom-in",
            display_name=_("Zoom-in"),
            tool_text=_("Zoom in (to make the text bigger)."),
        )
        self.addAction(
            name="zoom-out",
            display_name=_("Zoom-out"),
            tool_text=_("Zoom out (to make the text smaller)."),
        )
        self.addAction(
            name="theme",
            display_name=_("Theme"),
            tool_text=_(
                "Toggle theme between day, night or " "high contrast."
            ),
        )
        self.addSeparator()
        self.addAction(
            name="check",
            display_name=_("Check"),
            tool_text=_("Check your code for mistakes."),
        )
        if sys.version_info[:2] >= (3, 6):
            self.addAction(
                name="tidy",
                display_name=_("Tidy"),
                tool_text=_("Tidy up the layout of your code."),
            )
        self.addAction(
            name="help",
            display_name=_("Help"),
            tool_text=_("Show help about Mu in a browser."),
        )
        self.addSeparator()
        self.addAction(
            name="quit", display_name=_("Quit"), tool_text=_("Quit Mu.")
        )

    def set_responsive_mode(self, width, height):
        """
        Compact button bar for when window is very small.
        """
        font_size = min(DEFAULT_FONT_SIZE, width // 80)
        icon_size = min(64, width // 24)
        self.setIconSize(QSize(icon_size, icon_size))
        stylesheet = "QWidget{font-size: " + str(font_size) + "px;}"
        self.setStyleSheet(stylesheet)

    def addAction(self, name, display_name, tool_text):
        """
        Creates an action associated with an icon and name and adds it to the
        widget's slots.
        """
        action = QAction(
            load_icon(name), display_name, self, toolTip=tool_text
        )
        super().addAction(action)
        self.slots[name] = action

    def connect(self, name, handler, shortcut=None):
        """
        Connects a named slot to a handler function and optional hot-key
        shortcuts.
        """
        self.slots[name].pyqtConfigure(triggered=handler)
        if shortcut:
            self.slots[name].setShortcut(QKeySequence(shortcut))


class FileTabs(QTabWidget):
    """
    Extend the base class so we can override the removeTab behaviour.
    """

    def __init__(self):
        super(FileTabs, self).__init__()
        # We are implementing closable tabs manually
        self.setTabsClosable(False)
        self.setMovable(True)
        self.currentChanged.connect(self.change_tab)
        # Shrink icons to avoid giant tabs
        self.setIconSize(self.iconSize() * 0.75)

    def removeTab(self, tab_id):
        """
        Ask the user before closing the file.
        """
        window = self.nativeParentWidget()
        modified = self.widget(tab_id).isModified()
        if modified:
            msg = (
                "There is un-saved work, closing the tab will cause you "
                "to lose it."
            )
            if window.show_confirmation(msg) == QMessageBox.Cancel:
                return
        super(FileTabs, self).removeTab(tab_id)

    def addTab(self, widget, title):
        """
        Add a new tab to the switcher
        """
        # Proxy up to the real addTab
        tab_id = super(FileTabs, self).addTab(widget, title)
        # A widget to put the indicator and close button in
        container = QWidget()
        box = QHBoxLayout(container)
        # We don't want any margins on the layout, that would expand the tab
        box.setContentsMargins(0, 0, 0, 0)
        # Ensure some space between image and button
        box.setSpacing(6)
        # Counterintuitively QImage doesn't show an image, QLabel does
        state_lbl = QLabel(container)
        box.addWidget(state_lbl)
        state_lbl.setPixmap(load_pixmap("document", size=self.iconSize()))

        # Watch for status change to update the dirty indicator
        # We watch here as it's far easier to keep track of state_lbl
        # It does mean we assume all tabs are EditorPane
        @widget.modificationChanged.connect
        def on_modified():
            # Wrapped in a try/except because sometimes state_lbl is destroyed
            # by Qt before widget is GC'd by Python. Since there's no way to
            # easily check the status of state_lbl, wrapping in a try/except
            # for a RuntimeError is the simplest possible solution.
            try:
                if widget.isModified():
                    state_lbl.setPixmap(
                        load_pixmap("document-dirty", size=self.iconSize())
                    )
                else:
                    # This icon is actually empty
                    state_lbl.setPixmap(
                        load_pixmap("document", size=self.iconSize())
                    )
            except RuntimeError:  # pragma: no cover
                pass

        # Setup our own close button since we are overriding the built in one
        close_btn = QPushButton(container)
        box.addWidget(close_btn)
        close_btn.setToolTip(_("Close file"))
        close_btn.setFlat(True)
        close_btn.setIconSize(self.iconSize())
        close_btn.setIcon(load_icon("close-tab"))
        close_btn.show()

        # Handle 'clicked' events
        @close_btn.clicked.connect
        def close():
            # The tab_id isn't constant and may have changed, lookup the
            # current id of the EditorPane
            tab_id = self.indexOf(widget)
            # Close the tab
            self.removeTab(tab_id)

        container.setLayout(box)
        # Add the box, clearly it isn't a button but QTabBar actually takes
        # any QWidget not just buttons
        self.tabBar().setTabButton(tab_id, QTabBar.RightSide, container)

        # Return the index of the new page just like the reall addTab
        return tab_id

    def change_tab(self, tab_id):
        """
        Update the application title to reflect the name of the file in the
        currently selected tab.
        """
        current_tab = self.widget(tab_id)
        window = self.nativeParentWidget()
        if current_tab:
            window.update_title(current_tab.title)
        else:
            window.update_title(None)


class Window(QMainWindow):
    """
    Defines the look and characteristics of the application's main window.
    """

    title = _("Mu {}").format(__version__)
    icon = "icon"
    timer = None
    usb_checker = None
    repl = None
    plotter = None
    zooms = ("xs", "s", "m", "l", "xl", "xxl", "xxxl")  # levels of zoom.
    zoom_position = 2  # current level of zoom (as position in zooms tuple).

    _zoom_in = pyqtSignal(str)
    _zoom_out = pyqtSignal(str)
    data_received = pyqtSignal(bytes)
    open_file = pyqtSignal(str)
    load_theme = pyqtSignal(str)
    previous_folder = None
    debug_widths = None

    def __init__(self, parent=None):
        super().__init__(parent)
        # Record pane area to allow reopening where user put it in a session
        self._debugger_area = 0
        self._inspector_area = 0
        self._plotter_area = 0
        self._repl_area = 0
        self._runner_area = 0
        self.progress = None

    def wheelEvent(self, event):
        """
        Trap a CTRL-scroll event so the user is able to zoom in and out.
        """
        modifiers = QApplication.keyboardModifiers()
        if modifiers == Qt.ControlModifier:
            zoom = event.angleDelta().y() > 0
            if zoom:
                self.zoom_in()
            else:
                self.zoom_out()
            event.ignore()

    def set_zoom(self):
        """
        Sets the zoom to current zoom_position level.
        """
        self._zoom_in.emit(self.zooms[self.zoom_position])

    def zoom_in(self):
        """
        Handles zooming in.
        """
        self.zoom_position = min(self.zoom_position + 1, len(self.zooms) - 1)
        self._zoom_in.emit(self.zooms[self.zoom_position])

    def zoom_out(self):
        """
        Handles zooming out.
        """
        self.zoom_position = max(self.zoom_position - 1, 0)
        self._zoom_out.emit(self.zooms[self.zoom_position])

    def connect_zoom(self, widget):
        """
        Connects a referenced widget to the zoom related signals and sets
        the zoom of the widget to the current zoom level.
        """
        self._zoom_in.connect(widget.set_zoom)
        self._zoom_out.connect(widget.set_zoom)
        widget.set_zoom(self.zooms[self.zoom_position])

    @property
    def current_tab(self):
        """
        Returns the currently focussed tab.
        """
        return self.tabs.currentWidget()

    def set_read_only(self, is_readonly):
        """
        Set all tabs read-only.
        """
        self.read_only_tabs = is_readonly
        for tab in self.widgets:
            tab.setReadOnly(is_readonly)

    def get_load_path(self, folder, extensions="*", allow_previous=True):
        """
        Displays a dialog for selecting a file to load. Returns the selected
        path. Defaults to start in the referenced folder unless a previous
        folder has been used and the allow_previous flag is True (the default
        behaviour)
        """
        if allow_previous:
            open_in = (
                folder
                if self.previous_folder is None
                else self.previous_folder
            )
        else:
            open_in = folder
        path, _ = QFileDialog.getOpenFileName(
            self.widget, "Open file", open_in, extensions
        )
        logger.debug("Getting load path: {}".format(path))
        if allow_previous:
            self.previous_folder = os.path.dirname(path)
        return path

    def get_save_path(self, folder):
        """
        Displays a dialog for selecting a file to save. Returns the selected
        path. Defaults to start in the referenced folder.
        """
        path, _ = QFileDialog.getSaveFileName(
            self.widget,
            "Save file",
            folder if self.previous_folder is None else self.previous_folder,
            "Python (*.py);;Other (*.*)",
            "Python (*.py)",
        )
        self.previous_folder = os.path.dirname(path)
        # Ensure there's a .py extension if none is provided by the user.
        # See issue #1571.
        name, ext = os.path.splitext(os.path.basename(path))
        if name and (not name.startswith(".")) and (not ext):
            # The file is not a . (dot) file and there's no extension, so add
            # .py as default.
            path += ".py"
        logger.debug("Getting save path: {}".format(path))
        return path

    def get_microbit_path(self, folder):
        """
        Displays a dialog for locating the location of the BBC micro:bit in the
        host computer's filesystem. Returns the selected path. Defaults to
        start in the referenced folder.
        """
        path = QFileDialog.getExistingDirectory(
            self.widget,
            "Locate BBC micro:bit",
            folder if self.previous_folder is None else self.previous_folder,
            QFileDialog.ShowDirsOnly,
        )
        self.previous_folder = os.path.dirname(path)
        logger.debug("Getting micro:bit path: {}".format(path))
        return path

    def add_tab(self, path, text, api, newline):
        """
        Adds a tab with the referenced path and text to the editor.
        """
        new_tab = EditorPane(path, text, newline)
        new_tab.connect_margin(self.breakpoint_toggle)
        new_tab_index = self.tabs.addTab(new_tab, new_tab.label)
        new_tab.set_api(api)

        @new_tab.modificationChanged.connect
        def on_modified():
            modified_tab_index = self.tabs.indexOf(new_tab)
            # Update tab label & window title
            # Tab dirty indicator is managed in FileTabs.addTab
            self.tabs.setTabText(modified_tab_index, new_tab.label)
            self.update_title(new_tab.title)

        @new_tab.open_file.connect
        def on_open_file(file):
            # Bubble the signal up
            self.open_file.emit(file)

        new_tab.context_menu.connect(self.on_context_menu)

        self.tabs.setCurrentIndex(new_tab_index)
        self.connect_zoom(new_tab)
        self.set_theme(self.theme)
        new_tab.setFocus()
        if self.read_only_tabs:
            new_tab.setReadOnly(self.read_only_tabs)
        return new_tab

    def focus_tab(self, tab):
        """
        Force focus on the referenced tab.
        """
        index = self.tabs.indexOf(tab)
        self.tabs.setCurrentIndex(index)
        tab.setFocus()

    @property
    def tab_count(self):
        """
        Returns the number of active tabs.
        """
        return self.tabs.count()

    @property
    def widgets(self):
        """
        Returns a list of references to the widgets representing tabs in the
        editor.
        """
        return [self.tabs.widget(i) for i in range(self.tab_count)]

    @property
    def modified(self):
        """
        Returns a boolean indication if there are any modified tabs in the
        editor.
        """
        for widget in self.widgets:
            if widget.isModified():
                return True
        return False

    def on_context_menu(self):
        """
        Called when a user right-clicks on an editor pane.

        If the REPL is active AND there is selected text in the current editor
        pane, modify the default context menu to include a paste to REPL
        option. Otherwise, just display the default context menu.
        """
        # Create a standard context menu.
        menu = self.current_tab.createStandardContextMenu()
        # Flag to indicate if there is a section of text highlighted.
        has_selection = any([x > -1 for x in self.current_tab.getSelection()])
        # Flag to indicate if the REPL pane is active.
        has_repl = hasattr(self, "repl") and self.repl
        # Flag to indicate if the Python process runner pane is active and in
        # interactive Python3 mode (pasting into other "standard" Python modes
        # doesn't make sense).
        has_runner = (
            hasattr(self, "process_runner")
            and self.process_runner
            and self.process_runner.is_interactive
        )
        if has_selection and (has_repl or has_runner):
            # Text selected with REPL/process context, so add the bespoke
            # "copy to repl" item to the standard context menu to handle this
            # situation.
            actions = menu.actions()
            copy_to_repl = QAction(_("Copy selected text to REPL"), menu)
            copy_to_repl.triggered.connect(self.copy_to_repl)
            menu.insertAction(actions[0], copy_to_repl)
            menu.insertSeparator(actions[0])
        # Display menu.
        menu.exec_(QCursor.pos())

    def copy_to_repl(self):
        """
        Copies currently selected text in the editor, into the active REPL
        widget and sets focus to the REPL widget. The final line pasted into
        the REPL waits for RETURN to be pressed by the user (this appears to be
        the default behaviour for pasting into the REPL widget).
        """
        line_from, pos_from, line_to, pos_to = self.current_tab.getSelection()
        lines = self.current_tab.text().split("\n")
        if line_from == line_to:
            # Paste a fragment from an individual line.
            to_paste = lines[line_from][pos_from:pos_to]
        else:
            # Multi-line paste (paste all lines selected).
            selected = lines[line_from : line_to + 1]
            # Ensure the correct indentation.
            # If the first line starts with whitespace, work out the number of
            # spaces and deduct said number of whitespace from start of all
            # other lines. That's perhaps the best we can do.
            if selected and selected[0].startswith(" "):
                indent = 0
                for char in selected[0]:
                    if char.isspace():
                        indent += 1
                    else:
                        break
                selected = [line[indent:] for line in selected]
            to_paste = "\n".join(selected)
        logger.info("Pasting to REPL")
        logger.info("\n" + to_paste)
        clipboard = QApplication.clipboard()
        clipboard.setText(to_paste)
        if hasattr(self, "repl_pane") and self.repl_pane:
            self.repl_pane.paste()
            self.repl_pane.setFocus()
        elif hasattr(self, "process_runner") and self.process_runner:
            self.process_runner.paste()
            self.process_runner.setFocus()

    def on_stdout_write(self, data):
        """
        Called when either a running script or the REPL write to STDOUT.
        """
        self.data_received.emit(data)

    def add_filesystem(self, home, file_manager, board_name="board"):
        """
        Adds the file system pane to the application.
        """
        self.fs_pane = FileSystemPane(home)

        @self.fs_pane.open_file.connect
        def on_open_file(file):
            # Bubble the signal up
            self.open_file.emit(file)

        self.fs = QDockWidget(_("Filesystem on ") + board_name)
        self.fs.setWidget(self.fs_pane)
        self.fs.setFeatures(QDockWidget.DockWidgetMovable)
        self.fs.setAllowedAreas(Qt.BottomDockWidgetArea)
        self.addDockWidget(Qt.BottomDockWidgetArea, self.fs)
        self.fs_pane.setFocus()
        file_manager.on_list_files.connect(self.fs_pane.on_ls)
        self.fs_pane.list_files.connect(file_manager.ls)
        self.fs_pane.microbit_fs.put.connect(file_manager.put)
        self.fs_pane.microbit_fs.delete.connect(file_manager.delete)
        self.fs_pane.microbit_fs.list_files.connect(file_manager.ls)
        self.fs_pane.local_fs.get.connect(file_manager.get)
        self.fs_pane.local_fs.put.connect(file_manager.put)
        self.fs_pane.local_fs.list_files.connect(file_manager.ls)
        file_manager.on_put_file.connect(self.fs_pane.microbit_fs.on_put)
        file_manager.on_delete_file.connect(self.fs_pane.microbit_fs.on_delete)
        file_manager.on_get_file.connect(self.fs_pane.local_fs.on_get)
        file_manager.on_list_fail.connect(self.fs_pane.on_ls_fail)
        file_manager.on_put_fail.connect(self.fs_pane.on_put_fail)
        file_manager.on_delete_fail.connect(self.fs_pane.on_delete_fail)
        file_manager.on_get_fail.connect(self.fs_pane.on_get_fail)
        self.connect_zoom(self.fs_pane)
        return self.fs_pane

    def add_micropython_repl(self, name, connection):
        """
        Adds a MicroPython based REPL pane to the application.
        """
        repl_pane = MicroPythonREPLPane(connection)
        connection.data_received.connect(repl_pane.process_tty_data)
        self.add_repl(repl_pane, name)

    def add_snek_repl(
        self, name, connection, force_interrupt=True, wait_input=False
    ):
        """
        Adds a Snek based REPL pane to the application.
        """
        repl_pane = SnekREPLPane(connection)
        connection.data_received.connect(repl_pane.process_bytes)
        self.add_repl(repl_pane, name)

    def add_micropython_plotter(self, name, connection, data_flood_handler):
        """
        Adds a plotter that reads data from a serial connection.
        """
        plotter_pane = PlotterPane()
        connection.data_received.connect(plotter_pane.process_tty_data)
        plotter_pane.data_flood.connect(data_flood_handler)
        self.add_plotter(plotter_pane, name)

    def add_python3_plotter(self, mode):
        """
        Add a plotter that reads from either the REPL or a running script.
        Since this function will only be called when either the REPL or a
        running script are running (but not at the same time), it'll just grab
        data emitted by the REPL or script via data_received.
        """
        plotter_pane = PlotterPane()
        self.data_received.connect(plotter_pane.process_tty_data)
        plotter_pane.data_flood.connect(mode.on_data_flood)
        self.add_plotter(plotter_pane, _("Python3 data tuple"))

    def add_jupyter_repl(self, kernel_manager, kernel_client):
        """
        Adds a Jupyter based REPL pane to the application.
        """
        kernel_client.start_channels()
        ipython_widget = JupyterREPLPane()
        ipython_widget.kernel_manager = kernel_manager
        ipython_widget.kernel_client = kernel_client
        ipython_widget.on_append_text.connect(self.on_stdout_write)
        self.add_repl(ipython_widget, _("Python3 (Jupyter)"))

    def add_repl(self, repl_pane, name):
        """
        Adds the referenced REPL pane to the application.
        """
        self.repl_pane = repl_pane
        self.repl = QDockWidget(_("{} REPL").format(name))
        self.repl.setWidget(repl_pane)
        self.repl.setFeatures(QDockWidget.DockWidgetMovable)
        self.repl.setAllowedAreas(
            Qt.BottomDockWidgetArea
            | Qt.LeftDockWidgetArea
            | Qt.RightDockWidgetArea
        )
        area = self._repl_area or Qt.BottomDockWidgetArea
        self.addDockWidget(area, self.repl)
        self.connect_zoom(self.repl_pane)
        self.repl_pane.set_theme(self.theme)
        self.repl_pane.setFocus()

    def add_plotter(self, plotter_pane, name):
        """
        Adds the referenced plotter pane to the application.
        """
        self.plotter_pane = plotter_pane
        self.plotter = QDockWidget(_("{} Plotter").format(name))
        self.plotter.setWidget(plotter_pane)
        self.plotter.setFeatures(QDockWidget.DockWidgetMovable)
        self.plotter.setAllowedAreas(
            Qt.BottomDockWidgetArea
            | Qt.LeftDockWidgetArea
            | Qt.RightDockWidgetArea
        )
        area = self._plotter_area or Qt.BottomDockWidgetArea
        self.addDockWidget(area, self.plotter)
        self.plotter_pane.set_theme(self.theme)
        self.plotter_pane.setFocus()

    def add_python3_runner(
        self,
        interpreter,
        script_name,
        working_directory,
        interactive=False,
        debugger=False,
        command_args=None,
        envars=None,
        python_args=None,
    ):
        """
        Display console output for the interpreter with the referenced
        pythonpath running the referenced script.

        The script will be run within the workspace_path directory.

        If interactive is True (default is False) the Python process will
        run in interactive mode (dropping the user into the REPL when the
        script completes).

        If debugger is True (default is False) the script will be run within
        a debug runner session. The debugger overrides the interactive flag
        (you cannot run the debugger in interactive mode).

        If there is a list of command_args (the default is None) then these
        will be passed as further arguments into the command run in the
        new process.

        If envars is given, these will become part of the environment context
        of the new chlid process.

        If python_args is given, these will be passed as arguments to the
        Python runtime used to launch the child process.
        """
        self.process_runner = PythonProcessPane(self)
        self.runner = QDockWidget(
            _("Running: {}").format(os.path.basename(script_name))
        )
        self.runner.setWidget(self.process_runner)
        self.runner.setFeatures(QDockWidget.DockWidgetMovable)
        self.runner.setAllowedAreas(
            Qt.BottomDockWidgetArea
            | Qt.LeftDockWidgetArea
            | Qt.RightDockWidgetArea
        )
        self.process_runner.debugger = debugger
        if debugger:
            area = self._debugger_area or Qt.BottomDockWidgetArea
        else:
            area = self._runner_area or Qt.BottomDockWidgetArea
        self.addDockWidget(area, self.runner)
        logger.info(
            "About to start_process: %r, %r, %r, %r, %r, %r, %r, %r",
            interpreter,
            script_name,
            working_directory,
            interactive,
            debugger,
            command_args,
            envars,
            python_args,
        )

        self.process_runner.start_process(
            interpreter,
            script_name,
            working_directory,
            interactive,
            debugger,
            command_args,
            envars,
            python_args,
        )
        self.process_runner.setFocus()
        self.process_runner.on_append_text.connect(self.on_stdout_write)
        self.connect_zoom(self.process_runner)
        return self.process_runner

    def add_debug_inspector(self):
        """
        Display a debug inspector to view the call stack.
        """
        self.debug_inspector = DebugInspector()
        self.debug_model = QStandardItemModel()
        self.debug_inspector.setModel(self.debug_model)
        self.inspector = QDockWidget(_("Debug Inspector"))
        self.inspector.setWidget(self.debug_inspector)
        self.inspector.setFeatures(QDockWidget.DockWidgetMovable)
        self.inspector.setAllowedAreas(
            Qt.BottomDockWidgetArea
            | Qt.LeftDockWidgetArea
            | Qt.RightDockWidgetArea
        )
        area = self._inspector_area or Qt.RightDockWidgetArea
        self.addDockWidget(area, self.inspector)
        self.connect_zoom(self.debug_inspector)
        # Setup the inspector headers and restore column widths
        self.debug_model.setHorizontalHeaderLabels([_("Name"), _("Value")])
        if self.debug_widths:
            for col, width in enumerate(self.debug_widths):
                self.debug_inspector.setColumnWidth(col, width)

    def update_debug_inspector(self, locals_dict):
        """
        Given the contents of a dict representation of the locals in the
        current stack frame, update the debug inspector with the new values.
        """
        excluded_names = ["__builtins__", "__debug_code__", "__debug_script__"]
        names = sorted([x for x in locals_dict if x not in excluded_names])

        # Remove rows so we keep the same column layouts if manually set
        while self.debug_model.rowCount() > 0:
            self.debug_model.removeRow(0)
        for name in names:
            item_to_expand = None
            try:
                # DANGER!
                val = eval(locals_dict[name])
            except Exception:
                val = None
            if isinstance(val, list):
                # Show a list consisting of rows of position/value
                list_item = DebugInspectorItem(name)
                item_to_expand = list_item
                for i, i_val in enumerate(val):
                    list_item.appendRow(
                        [
                            DebugInspectorItem(str(i)),
                            DebugInspectorItem(repr(i_val)),
                        ]
                    )
                self.debug_model.appendRow(
                    [
                        list_item,
                        DebugInspectorItem(
                            _("(A list of {} items.)").format(len(val))
                        ),
                    ]
                )
            elif isinstance(val, dict):
                # Show a dict consisting of rows of key/value pairs.
                dict_item = DebugInspectorItem(name)
                item_to_expand = dict_item
                for k, k_val in val.items():
                    dict_item.appendRow(
                        [
                            DebugInspectorItem(repr(k)),
                            DebugInspectorItem(repr(k_val)),
                        ]
                    )
                self.debug_model.appendRow(
                    [
                        dict_item,
                        DebugInspectorItem(
                            _("(A dict of {} items.)").format(len(val))
                        ),
                    ]
                )
            else:
                self.debug_model.appendRow(
                    [
                        DebugInspectorItem(name),
                        DebugInspectorItem(locals_dict[name]),
                    ]
                )
            # Expand dicts/list with names matching old expanded entries
            if (
                hasattr(self, "debug_inspector")
                and name in self.debug_inspector.expanded_dicts
                and item_to_expand is not None
            ):
                self.debug_inspector.expand(
                    self.debug_model.indexFromItem(item_to_expand)
                )

    def remove_filesystem(self):
        """
        Removes the file system pane from the application.
        """
        if hasattr(self, "fs") and self.fs:
            self.fs_pane = None
            self.fs.setParent(None)
            self.fs.deleteLater()
            self.fs = None

    def remove_repl(self):
        """
        Removes the REPL pane from the application.
        """
        if self.repl:
            self._repl_area = self.dockWidgetArea(self.repl)
            self.repl_pane = None
            self.repl.setParent(None)
            self.repl.deleteLater()
            self.repl = None

    def remove_plotter(self):
        """
        Removes the plotter pane from the application.
        """
        if self.plotter:
            self._plotter_area = self.dockWidgetArea(self.plotter)
            self.plotter_pane = None
            self.plotter.setParent(None)
            self.plotter.deleteLater()
            self.plotter = None

    def remove_python_runner(self):
        """
        Removes the runner pane from the application.
        """
        if hasattr(self, "runner") and self.runner:
            if self.process_runner.debugger:
                self._debugger_area = self.dockWidgetArea(self.runner)
            else:
                self._runner_area = self.dockWidgetArea(self.runner)
            self.process_runner = None
            self.runner.setParent(None)
            self.runner.deleteLater()
            self.runner = None

    def remove_debug_inspector(self):
        """
        Removes the debug inspector pane from the application.
        """
        if hasattr(self, "inspector") and self.inspector:
            width = self.debug_inspector.columnWidth
            self.debug_widths = width(0), width(1)
            self._inspector_area = self.dockWidgetArea(self.inspector)
            self.debug_inspector = None
            self.debug_model = None
            self.inspector.setParent(None)
            self.inspector.deleteLater()
            self.inspector = None

    def set_theme(self, theme):
        """
        Sets the theme for the REPL and editor tabs.
        """
        self.theme = theme
        self.load_theme.emit(theme)
        if theme == "contrast":
            new_theme = ContrastTheme
            new_icon = "theme_day"
        elif theme == "night":
            new_theme = NightTheme
            new_icon = "theme_contrast"
        else:
            new_theme = DayTheme
            new_icon = "theme"
        for widget in self.widgets:
            widget.set_theme(new_theme)
        self.button_bar.slots["theme"].setIcon(load_icon(new_icon))
        if hasattr(self, "repl") and self.repl:
            self.repl_pane.set_theme(theme)
        if hasattr(self, "plotter") and self.plotter:
            self.plotter_pane.set_theme(theme)
        if hasattr(self, "runner") and self.runner:
            self.process_runner.set_theme(theme)

    def set_checker_icon(self, icon):
        """
        Set the status icon to use on the check button
        """
        self.button_bar.slots["check"].setIcon(load_icon(icon))
        timer = QTimer()

        @timer.timeout.connect
        def reset():
            self.button_bar.slots["check"].setIcon(load_icon("check"))
            timer.stop()

        timer.start(500)

    def show_admin(self, log, settings, packages, mode, device_list):
        """
        Display the administrative dialog with referenced content of the log
        and settings. Return a dictionary of the settings that may have been
        changed by the admin dialog.
        """
        admin_box = AdminDialog(self)
        admin_box.setup(log, settings, packages, mode, device_list)
        result = admin_box.exec()
        if result:
            return admin_box.settings()
        else:
            return {}

    def sync_packages(self, to_remove, to_add):
        """
        Display a modal dialog that indicates the status of the add/remove
        package management operation.
        """
        package_box = PackageDialog(self)
        package_box.setup(to_remove, to_add)
        package_box.exec()

    def show_message(self, message, information=None, icon=None):
        """
        Displays a modal message to the user.

        If information is passed in this will be set as the additional
        informative text in the modal dialog.

        Since this mechanism will be used mainly for warning users that
        something is awry the default icon is set to "Warning". It's possible
        to override the icon to one of the following settings: NoIcon,
        Question, Information, Warning or Critical.
        """
        message_box = QMessageBox(self)
        message_box.setText(message)
        message_box.setWindowTitle("Mu")
        if information:
            message_box.setInformativeText(information)
        if icon and hasattr(message_box, icon):
            message_box.setIcon(getattr(message_box, icon))
        else:
            message_box.setIcon(message_box.Warning)
        logger.debug(message)
        logger.debug(information)
        message_box.exec()

    def show_confirmation(self, message, information=None, icon=None):
        """
        Displays a modal message to the user to which they need to confirm or
        cancel.

        If information is passed in this will be set as the additional
        informative text in the modal dialog.

        Since this mechanism will be used mainly for warning users that
        something is awry the default icon is set to "Warning". It's possible
        to override the icon to one of the following settings: NoIcon,
        Question, Information, Warning or Critical.
        """
        message_box = QMessageBox(self)
        message_box.setText(message)
        message_box.setWindowTitle(_("Mu"))
        if information:
            message_box.setInformativeText(information)
        if icon and hasattr(message_box, icon):
            message_box.setIcon(getattr(message_box, icon))
        else:
            message_box.setIcon(message_box.Warning)
        message_box.setStandardButtons(message_box.Cancel | message_box.Ok)
        message_box.setDefaultButton(message_box.Cancel)
        logger.debug(message)
        logger.debug(information)
        return message_box.exec()

    def update_title(self, filename=None):
        """
        Updates the title bar of the application. If a filename (representing
        the name of the file currently the focus of the editor) is supplied,
        append it to the end of the title.
        """
        title = self.title
        if filename:
            title += " - " + filename
        self.setWindowTitle(title)

    def screen_size(self):
        """
        Returns an (width, height) tuple with the screen geometry.
        """
        screen = QDesktopWidget().screenGeometry()
        return screen.width(), screen.height()

    def size_window(self, x=None, y=None, w=None, h=None):
        """
        Makes the editor 80% of the width*height of the screen and centres it
        when none of x, y, w and h is passed in; otherwise uses the passed in
        values to position and size the editor window.

        If the X or Y value will be off the screen, these are reset to None
        (thus stopping the window being drawn in a hard-to-reach place). See
        issue #1613 for context.
        """
        screen_width, screen_height = self.screen_size()
        w = int(screen_width * 0.8) if w is None else w
        h = int(screen_height * 0.8) if h is None else h
        self.resize(w, h)
        size = self.geometry()
        # Ensure the window isn't added off the screen.
        if x and (x <= 0 or x > screen_width):
            x = None
        if y and (y <= 0 or y > screen_height):
            y = None
        x = (screen_width - size.width()) // 2 if x is None else x
        y = (screen_height - size.height()) // 2 if y is None else y
        self.move(x, y)

    def reset_annotations(self):
        """
        Resets the state of annotations on the current tab.
        """
        self.current_tab.reset_annotations()

    def annotate_code(self, feedback, annotation_type):
        """
        Given a list of annotations about the code in the current tab, add
        the annotations to the editor window so the user can make appropriate
        changes.
        """
        self.current_tab.annotate_code(feedback, annotation_type)

    def show_annotations(self):
        """
        Show the annotations added to the current tab.
        """
        self.current_tab.show_annotations()

    def setup(self, breakpoint_toggle, theme):
        """
        Sets up the window.

        Defines the various attributes of the window and defines how the user
        interface is laid out.
        """
        self.theme = theme
        self.breakpoint_toggle = breakpoint_toggle
        # Give the window a default icon, title and minimum size.
        self.setWindowIcon(load_icon(self.icon))
        self.update_title()
        self.read_only_tabs = False
        screen_width, screen_height = self.screen_size()
        self.setMinimumSize(screen_width // 2, screen_height // 2)
        self.setTabPosition(Qt.AllDockWidgetAreas, QTabWidget.North)
        self.widget = QWidget()
        widget_layout = QVBoxLayout()
        self.widget.setLayout(widget_layout)
        self.button_bar = ButtonBar(self.widget)
        self.tabs = FileTabs()
        self.setCentralWidget(self.tabs)
        self.status_bar = StatusBar(parent=self)
        self.setStatusBar(self.status_bar)
        self.addToolBar(self.button_bar)
        self.show()

    def resizeEvent(self, resizeEvent):
        """
        Respond to window getting too small for the button bar to fit well.
        """
        size = resizeEvent.size()
        self.button_bar.set_responsive_mode(size.width(), size.height())

    def select_mode(self, modes, current_mode):
        """
        Display the mode selector dialog and return the result.
        """
        mode_select = ModeSelector(self)
        mode_select.setup(modes, current_mode)
        mode_select.exec()
        try:
            return mode_select.get_mode()
        except Exception:
            return None

    def change_mode(self, mode):
        """
        Given a an object representing a mode, recreates the button bar with
        the expected functionality.
        """
        self.button_bar.change_mode(mode)
        # Update the autocomplete / tooltip APIs for each tab to the new mode.
        api = mode.api()
        for widget in self.widgets:
            widget.set_api(api)

    def set_usb_checker(self, duration, callback):
        """
        Sets up a timer that polls for USB changes via the "callback" every
        "duration" seconds.
        """
        self.usb_checker = QTimer()
        self.usb_checker.timeout.connect(callback)
        self.usb_checker.start(duration * 1000)

    def set_timer(self, duration, callback):
        """
        Set a repeating timer to call "callback" every "duration" seconds.
        """
        self.timer = QTimer()
        self.timer.timeout.connect(callback)
        self.timer.start(duration * 1000)  # Measured in milliseconds.

    def stop_timer(self):
        """
        Stop the repeating timer.
        """
        if self.timer:
            self.timer.stop()
            self.timer = None

    def connect_tab_rename(self, handler, shortcut):
        """
        Connect the double-click event on a tab and the keyboard shortcut to
        the referenced handler (causing the Save As dialog).
        """
        self.tabs.shortcut = QShortcut(QKeySequence(shortcut), self)
        self.tabs.shortcut.activated.connect(handler)
        self.tabs.tabBarDoubleClicked.connect(handler)

    def open_directory_from_os(self, path):
        """
        Given the path to a directory, open the OS's built in filesystem
        explorer for that path. Works with Windows, OSX and Linux.
        """
        if sys.platform == "win32":
            # Windows
            os.startfile(path)
        elif sys.platform == "darwin":
            # OSX
            os.system('open "{}"'.format(path))
        else:
            # Assume freedesktop.org on unix-y.
            os.system('xdg-open "{}"'.format(path))

    def connect_find_replace(self, handler, shortcut):
        """
        Create a keyboard shortcut and associate it with a handler for doing
        a find and replace.
        """
        self.find_replace_shortcut = QShortcut(QKeySequence(shortcut), self)
        self.find_replace_shortcut.activated.connect(handler)

    def connect_find_again(self, handlers, shortcut):
        """
        Create keyboard shortcuts and associate them with handlers for doing
        a find again in forward or backward direction. Any given shortcut
        will be used for forward find again, while Shift+shortcut will find
        again backwards.
        """
        forward, backward = handlers
        self.find_again_shortcut = QShortcut(QKeySequence(shortcut), self)
        self.find_again_shortcut.activated.connect(forward)
        backward_shortcut = QKeySequence("Shift+" + shortcut)
        self.find_again_backward_shortcut = QShortcut(backward_shortcut, self)
        self.find_again_backward_shortcut.activated.connect(backward)

    def show_find_replace(self, find, replace, global_replace):
        """
        Display the find/replace dialog. If the dialog's OK button was clicked
        return a tuple containing the find term, replace term and global
        replace flag.
        """
        finder = FindReplaceDialog(self)
        finder.setup(find, replace, global_replace)
        if finder.exec():
            return (finder.find(), finder.replace(), finder.replace_flag())

    def replace_text(self, target_text, replace, global_replace):
        """
        Given target_text, replace the first instance after the cursor with
        "replace". If global_replace is true, replace all instances of
        "target". Returns the number of times replacement has occurred.
        """
        if not self.current_tab:
            return 0
        if global_replace:
            counter = 0
            found = self.current_tab.findFirst(
                target_text, False, True, False, False, line=0, index=0
            )
            if found:
                counter += 1
                self.current_tab.replace(replace)
                while self.current_tab.findNext():
                    self.current_tab.replace(replace)
                    counter += 1
            return counter
        else:
            found = self.current_tab.findFirst(
                target_text, False, True, False, True
            )
            if found:
                self.current_tab.replace(replace)
                return 1
            else:
                return 0

    def highlight_text(self, target_text, forward=True):
        """
        Highlight the first match from the current position of the cursor in
        the current tab for the target_text. Returns True if there's a match.
        """
        if self.current_tab:
            line = -1
            index = -1
            if not forward:
                # Workaround for `findFirst(forward=False)` not advancing
                # backwards: pass explicit line and index values.
                line, index, _el, _ei = self.current_tab.getSelection()
            return self.current_tab.findFirst(
                target_text,  # Text to find,
                False,  # Treat as regular expression
                True,  # Case sensitive search
                False,  # Whole word matches only
                True,  # Wrap search
                forward=forward,  # Forward search
                line=line,  # -1 starts at current position
                index=index,  # -1 starts at current position
            )
        else:
            return False

    def connect_toggle_comments(self, handler, shortcut):
        """
        Create a keyboard shortcut and associate it with a handler for toggling
        comments on highlighted lines.
        """
        self.toggle_comments_shortcut = QShortcut(QKeySequence(shortcut), self)
        self.toggle_comments_shortcut.activated.connect(handler)

    def toggle_comments(self):
        """
        Toggle comments on/off for all selected line in the currently active
        tab.
        """
        if self.current_tab:
            self.current_tab.toggle_comments()

    def show_device_selector(self):
        """
        Reveals the device selector in the status bar
        """
        self.status_bar.device_selector.setHidden(False)

    def hide_device_selector(self):
        """
        Hides the device selector in the status bar
        """
        self.status_bar.device_selector.setHidden(True)

    def upload_to_python_anywhere(
        self, instance, username, token, app_name, files
    ):
        """
        Show a progress dialog as the files are uploaded to PythonAnywhere.
        """
        self.progress = QProgressDialog(
            _(
                "Uploading to PythonAnywhere.\n\nThis may take some time "
                "and pause at the end (as the website is started)."
            ),
            None,
            0,
            len(files),
            self,
        )
        self.progress.setModal(True)
        self.progress.setAutoClose(True)
        self.progress.show()
        self.upload_thread = QThread()
        self.worker = PythonAnywhereWorker(
            instance, username, token, files, app_name, self.progress
        )
        self.worker.moveToThread(self.upload_thread)
        self.upload_thread.started.connect(self.worker.run)
        self.worker.finished.connect(self.upload_thread.quit)
        self.worker.finished.connect(self.worker.deleteLater)
        self.worker.finished.connect(self.handle_python_anywhere_complete)
        self.upload_thread.finished.connect(self.upload_thread.deleteLater)
        self.worker.error.connect(self.handle_python_anywhere_error)
        self.worker.error.connect(self.upload_thread.quit)
        self.worker.error.connect(self.worker.deleteLater)
        self.upload_thread.start()

    def handle_python_anywhere_complete(self, domain):
        """
        Displays a confirmation that all the API calls completed OK and
        provides a link to the user's website.
        """
        message = _(
            "<p>Your website was successfully deployed.</p>"
            "<p>You can see it here:</p>"
            "<a href='https://{domain}'>https://{domain}</a>"
        ).format(domain=domain)
        self.show_message(
            message,
            icon="Information",
        )

    def handle_python_anywhere_error(self, error_message):
        """
        Display a friendly message to indicate a problem was encountered when
        uploading to PythonAnywhere.
        """
        self.progress.cancel()
        message = (
            _("There was a problem deploying to PythonAnywhere:<br/><br/>")
            + "<strong>"
            + error_message
            + "</strong>"
        )
        self.show_message(
            message,
            _(
                "Please check your PythonAnywhere settings or connection "
                "and ensure you're using a recent version of Mu.<br/><br/>"
                "Alternatively, "
                "<a href='https://github.com/mu-editor/mu/issues/new/choose'>"
                "submit a bug report</a>."
            ),
        )


class StatusBar(QStatusBar):
    """
    Defines the look and behaviour of the status bar along the bottom of the
    UI.
    """

    def __init__(self, parent=None, mode="python"):
        super().__init__(parent)
        self.mode = mode
        self.msg_duration = 5

        # Mode selector.
        self.mode_label = QLabel()
        self.mode_label.setToolTip(_("Mu's current mode of behaviour."))
        self.addPermanentWidget(self.mode_label)
        self.set_mode(mode)

        # Device selector.
        self.device_selector = DeviceSelector()
        self.device_selector.setHidden(True)
        self.addPermanentWidget(self.device_selector)

        # Logs viewer
        self.logs_label = QLabel()
        self.logs_label.setObjectName("AdministrationLabel")
        self.logs_label.setPixmap(load_pixmap("logs", size=QSize(24, 24)))
        self.logs_label.setToolTip(_("Mu Administration"))
        self.addPermanentWidget(self.logs_label)

    def connect_logs(self, handler, shortcut):
        """
        Connect the mouse press event and keyboard shortcut for the log widget
        to the referenced handler function.
        """
        self.logs_label.shortcut = QShortcut(
            QKeySequence(shortcut), self.parent()
        )
        self.logs_label.shortcut.activated.connect(handler)
        self.logs_label.mousePressEvent = handler

    def connect_mode(self, handler, shortcut):
        """
        Connect the mouse press event and keyboard shortcut for the mode widget
        to the referenced handler function.
        """
        self.mode_label.shortcut = QShortcut(
            QKeySequence(shortcut), self.parent()
        )
        self.mode_label.shortcut.activated.connect(handler)
        self.mode_label.mousePressEvent = handler

    def set_message(self, message, pause=5000):
        """
        Displays a message in the status bar for a certain period of time.
        """
        self.showMessage(message, pause)

    def set_mode(self, mode):
        """
        Updates the mode label to the new mode.
        """
        self.mode_label.setText(mode)

    def device_connected(self, device):
        """
        Show a tooltip whenever a new device connects
        """
        if device.board_name:
            msg = _("Detected new {} device: {}.").format(
                device.long_mode_name, device.board_name
            )
        else:
            msg = _("Detected new {} device.").format(device.long_mode_name)

        self.set_message(msg, self.msg_duration * 1000)