AIM-PIbd-32-Kurbanova-A-A/aimenv/Lib/site-packages/matplotlib/backends/backend_nbagg.py

"""Interactive figures in the IPython notebook."""
# Note: There is a notebook in
# lib/matplotlib/backends/web_backend/nbagg_uat.ipynb to help verify
# that changes made maintain expected behaviour.

from base64 import b64encode
import io
import json
import pathlib
import uuid

from ipykernel.comm import Comm
from IPython.display import display, Javascript, HTML

from matplotlib import is_interactive
from matplotlib._pylab_helpers import Gcf
from matplotlib.backend_bases import _Backend, CloseEvent, NavigationToolbar2
from .backend_webagg_core import (
    FigureCanvasWebAggCore, FigureManagerWebAgg, NavigationToolbar2WebAgg)
from .backend_webagg_core import (  # noqa: F401 # pylint: disable=W0611
    TimerTornado, TimerAsyncio)


def connection_info():
    """
    Return a string showing the figure and connection status for the backend.

    This is intended as a diagnostic tool, and not for general use.
    """
    result = [
        '{fig} - {socket}'.format(
            fig=(manager.canvas.figure.get_label()
                 or f"Figure {manager.num}"),
            socket=manager.web_sockets)
        for manager in Gcf.get_all_fig_managers()
    ]
    if not is_interactive():
        result.append(f'Figures pending show: {len(Gcf.figs)}')
    return '\n'.join(result)


_FONT_AWESOME_CLASSES = {  # font-awesome 4 names
    'home': 'fa fa-home',
    'back': 'fa fa-arrow-left',
    'forward': 'fa fa-arrow-right',
    'zoom_to_rect': 'fa fa-square-o',
    'move': 'fa fa-arrows',
    'download': 'fa fa-floppy-o',
    None: None
}


class NavigationIPy(NavigationToolbar2WebAgg):

    # Use the standard toolbar items + download button
    toolitems = [(text, tooltip_text,
                  _FONT_AWESOME_CLASSES[image_file], name_of_method)
                 for text, tooltip_text, image_file, name_of_method
                 in (NavigationToolbar2.toolitems +
                     (('Download', 'Download plot', 'download', 'download'),))
                 if image_file in _FONT_AWESOME_CLASSES]


class FigureManagerNbAgg(FigureManagerWebAgg):
    _toolbar2_class = ToolbarCls = NavigationIPy

    def __init__(self, canvas, num):
        self._shown = False
        super().__init__(canvas, num)

    @classmethod
    def create_with_canvas(cls, canvas_class, figure, num):
        canvas = canvas_class(figure)
        manager = cls(canvas, num)
        if is_interactive():
            manager.show()
            canvas.draw_idle()

        def destroy(event):
            canvas.mpl_disconnect(cid)
            Gcf.destroy(manager)

        cid = canvas.mpl_connect('close_event', destroy)
        return manager

    def display_js(self):
        # XXX How to do this just once? It has to deal with multiple
        # browser instances using the same kernel (require.js - but the
        # file isn't static?).
        display(Javascript(FigureManagerNbAgg.get_javascript()))

    def show(self):
        if not self._shown:
            self.display_js()
            self._create_comm()
        else:
            self.canvas.draw_idle()
        self._shown = True
        # plt.figure adds an event which makes the figure in focus the active
        # one. Disable this behaviour, as it results in figures being put as
        # the active figure after they have been shown, even in non-interactive
        # mode.
        if hasattr(self, '_cidgcf'):
            self.canvas.mpl_disconnect(self._cidgcf)
        if not is_interactive():
            from matplotlib._pylab_helpers import Gcf
            Gcf.figs.pop(self.num, None)

    def reshow(self):
        """
        A special method to re-show the figure in the notebook.

        """
        self._shown = False
        self.show()

    @property
    def connected(self):
        return bool(self.web_sockets)

    @classmethod
    def get_javascript(cls, stream=None):
        if stream is None:
            output = io.StringIO()
        else:
            output = stream
        super().get_javascript(stream=output)
        output.write((pathlib.Path(__file__).parent
                      / "web_backend/js/nbagg_mpl.js")
                     .read_text(encoding="utf-8"))
        if stream is None:
            return output.getvalue()

    def _create_comm(self):
        comm = CommSocket(self)
        self.add_web_socket(comm)
        return comm

    def destroy(self):
        self._send_event('close')
        # need to copy comms as callbacks will modify this list
        for comm in list(self.web_sockets):
            comm.on_close()
        self.clearup_closed()

    def clearup_closed(self):
        """Clear up any closed Comms."""
        self.web_sockets = {socket for socket in self.web_sockets
                            if socket.is_open()}

        if len(self.web_sockets) == 0:
            CloseEvent("close_event", self.canvas)._process()

    def remove_comm(self, comm_id):
        self.web_sockets = {socket for socket in self.web_sockets
                            if socket.comm.comm_id != comm_id}


class FigureCanvasNbAgg(FigureCanvasWebAggCore):
    manager_class = FigureManagerNbAgg


class CommSocket:
    """
    Manages the Comm connection between IPython and the browser (client).

    Comms are 2 way, with the CommSocket being able to publish a message
    via the send_json method, and handle a message with on_message. On the
    JS side figure.send_message and figure.ws.onmessage do the sending and
    receiving respectively.

    """
    def __init__(self, manager):
        self.supports_binary = None
        self.manager = manager
        self.uuid = str(uuid.uuid4())
        # Publish an output area with a unique ID. The javascript can then
        # hook into this area.
        display(HTML("<div id=%r></div>" % self.uuid))
        try:
            self.comm = Comm('matplotlib', data={'id': self.uuid})
        except AttributeError as err:
            raise RuntimeError('Unable to create an IPython notebook Comm '
                               'instance. Are you in the IPython '
                               'notebook?') from err
        self.comm.on_msg(self.on_message)

        manager = self.manager
        self._ext_close = False

        def _on_close(close_message):
            self._ext_close = True
            manager.remove_comm(close_message['content']['comm_id'])
            manager.clearup_closed()

        self.comm.on_close(_on_close)

    def is_open(self):
        return not (self._ext_close or self.comm._closed)

    def on_close(self):
        # When the socket is closed, deregister the websocket with
        # the FigureManager.
        if self.is_open():
            try:
                self.comm.close()
            except KeyError:
                # apparently already cleaned it up?
                pass

    def send_json(self, content):
        self.comm.send({'data': json.dumps(content)})

    def send_binary(self, blob):
        if self.supports_binary:
            self.comm.send({'blob': 'image/png'}, buffers=[blob])
        else:
            # The comm is ASCII, so we send the image in base64 encoded data
            # URL form.
            data = b64encode(blob).decode('ascii')
            data_uri = f"data:image/png;base64,{data}"
            self.comm.send({'data': data_uri})

    def on_message(self, message):
        # The 'supports_binary' message is relevant to the
        # websocket itself.  The other messages get passed along
        # to matplotlib as-is.

        # Every message has a "type" and a "figure_id".
        message = json.loads(message['content']['data'])
        if message['type'] == 'closing':
            self.on_close()
            self.manager.clearup_closed()
        elif message['type'] == 'supports_binary':
            self.supports_binary = message['value']
        else:
            self.manager.handle_json(message)


@_Backend.export
class _BackendNbAgg(_Backend):
    FigureCanvas = FigureCanvasNbAgg
    FigureManager = FigureManagerNbAgg