AIM-PIbd-32-Kurbanova-A-A/aimenv/Lib/site-packages/ipykernel/ipkernel.py

"""The IPython kernel implementation"""

import asyncio
import builtins
import gc
import getpass
import os
import signal
import sys
import threading
import typing as t
from contextlib import contextmanager
from functools import partial

import comm
from IPython.core import release
from IPython.utils.tokenutil import line_at_cursor, token_at_cursor
from jupyter_client.session import extract_header
from traitlets import Any, Bool, HasTraits, Instance, List, Type, observe, observe_compat
from zmq.eventloop.zmqstream import ZMQStream

from .comm.comm import BaseComm
from .comm.manager import CommManager
from .compiler import XCachingCompiler
from .eventloops import _use_appnope
from .iostream import OutStream
from .kernelbase import Kernel as KernelBase
from .kernelbase import _accepts_parameters
from .zmqshell import ZMQInteractiveShell

try:
    from IPython.core.interactiveshell import _asyncio_runner  # type:ignore[attr-defined]
except ImportError:
    _asyncio_runner = None  # type:ignore[assignment]

try:
    from IPython.core.completer import provisionalcompleter as _provisionalcompleter
    from IPython.core.completer import rectify_completions as _rectify_completions

    _use_experimental_60_completion = True
except ImportError:
    _use_experimental_60_completion = False


_EXPERIMENTAL_KEY_NAME = "_jupyter_types_experimental"


def _create_comm(*args, **kwargs):
    """Create a new Comm."""
    return BaseComm(*args, **kwargs)


# there can only be one comm manager in a ipykernel process
_comm_lock = threading.Lock()
_comm_manager: t.Optional[CommManager] = None


def _get_comm_manager(*args, **kwargs):
    """Create a new CommManager."""
    global _comm_manager  # noqa: PLW0603
    if _comm_manager is None:
        with _comm_lock:
            if _comm_manager is None:
                _comm_manager = CommManager(*args, **kwargs)
    return _comm_manager


comm.create_comm = _create_comm
comm.get_comm_manager = _get_comm_manager


class IPythonKernel(KernelBase):
    """The IPython Kernel class."""

    shell = Instance("IPython.core.interactiveshell.InteractiveShellABC", allow_none=True)
    shell_class = Type(ZMQInteractiveShell)

    use_experimental_completions = Bool(
        True,
        help="Set this flag to False to deactivate the use of experimental IPython completion APIs.",
    ).tag(config=True)

    debugpy_stream = Instance(ZMQStream, allow_none=True)

    user_module = Any()

    @observe("user_module")
    @observe_compat
    def _user_module_changed(self, change):
        if self.shell is not None:
            self.shell.user_module = change["new"]

    user_ns = Instance(dict, args=None, allow_none=True)

    @observe("user_ns")
    @observe_compat
    def _user_ns_changed(self, change):
        if self.shell is not None:
            self.shell.user_ns = change["new"]
            self.shell.init_user_ns()

    # A reference to the Python builtin 'raw_input' function.
    # (i.e., __builtin__.raw_input for Python 2.7, builtins.input for Python 3)
    _sys_raw_input = Any()
    _sys_eval_input = Any()

    def __init__(self, **kwargs):
        """Initialize the kernel."""
        super().__init__(**kwargs)

        from .debugger import Debugger, _is_debugpy_available

        # Initialize the Debugger
        if _is_debugpy_available:
            self.debugger = Debugger(
                self.log,
                self.debugpy_stream,
                self._publish_debug_event,
                self.debug_shell_socket,
                self.session,
                self.debug_just_my_code,
            )

        # Initialize the InteractiveShell subclass
        self.shell = self.shell_class.instance(
            parent=self,
            profile_dir=self.profile_dir,
            user_module=self.user_module,
            user_ns=self.user_ns,
            kernel=self,
            compiler_class=XCachingCompiler,
        )
        self.shell.displayhook.session = self.session  # type:ignore[attr-defined]

        jupyter_session_name = os.environ.get("JPY_SESSION_NAME")
        if jupyter_session_name:
            self.shell.user_ns["__session__"] = jupyter_session_name

        self.shell.displayhook.pub_socket = self.iopub_socket  # type:ignore[attr-defined]
        self.shell.displayhook.topic = self._topic("execute_result")  # type:ignore[attr-defined]
        self.shell.display_pub.session = self.session  # type:ignore[attr-defined]
        self.shell.display_pub.pub_socket = self.iopub_socket  # type:ignore[attr-defined]

        self.comm_manager = comm.get_comm_manager()

        assert isinstance(self.comm_manager, HasTraits)
        self.shell.configurables.append(self.comm_manager)  # type:ignore[arg-type]
        comm_msg_types = ["comm_open", "comm_msg", "comm_close"]
        for msg_type in comm_msg_types:
            self.shell_handlers[msg_type] = getattr(self.comm_manager, msg_type)

        if _use_appnope() and self._darwin_app_nap:
            # Disable app-nap as the kernel is not a gui but can have guis
            import appnope  # type:ignore[import-untyped]

            appnope.nope()

        self._new_threads_parent_header = {}
        self._initialize_thread_hooks()

        if hasattr(gc, "callbacks"):
            # while `gc.callbacks` exists since Python 3.3, pypy does not
            # implement it even as of 3.9.
            gc.callbacks.append(self._clean_thread_parent_frames)

    help_links = List(
        [
            {
                "text": "Python Reference",
                "url": "https://docs.python.org/%i.%i" % sys.version_info[:2],
            },
            {
                "text": "IPython Reference",
                "url": "https://ipython.org/documentation.html",
            },
            {
                "text": "NumPy Reference",
                "url": "https://docs.scipy.org/doc/numpy/reference/",
            },
            {
                "text": "SciPy Reference",
                "url": "https://docs.scipy.org/doc/scipy/reference/",
            },
            {
                "text": "Matplotlib Reference",
                "url": "https://matplotlib.org/contents.html",
            },
            {
                "text": "SymPy Reference",
                "url": "http://docs.sympy.org/latest/index.html",
            },
            {
                "text": "pandas Reference",
                "url": "https://pandas.pydata.org/pandas-docs/stable/",
            },
        ]
    ).tag(config=True)

    # Kernel info fields
    implementation = "ipython"
    implementation_version = release.version
    language_info = {
        "name": "python",
        "version": sys.version.split()[0],
        "mimetype": "text/x-python",
        "codemirror_mode": {"name": "ipython", "version": sys.version_info[0]},
        "pygments_lexer": "ipython%d" % 3,
        "nbconvert_exporter": "python",
        "file_extension": ".py",
    }

    def dispatch_debugpy(self, msg):
        from .debugger import _is_debugpy_available

        if _is_debugpy_available:
            # The first frame is the socket id, we can drop it
            frame = msg[1].bytes.decode("utf-8")
            self.log.debug("Debugpy received: %s", frame)
            self.debugger.tcp_client.receive_dap_frame(frame)

    @property
    def banner(self):
        if self.shell:
            return self.shell.banner
        return None

    async def poll_stopped_queue(self):
        """Poll the stopped queue."""
        while True:
            await self.debugger.handle_stopped_event()

    def start(self):
        """Start the kernel."""
        if self.shell:
            self.shell.exit_now = False
        if self.debugpy_stream is None:
            self.log.warning("debugpy_stream undefined, debugging will not be enabled")
        else:
            self.debugpy_stream.on_recv(self.dispatch_debugpy, copy=False)
        super().start()
        if self.debugpy_stream:
            asyncio.run_coroutine_threadsafe(
                self.poll_stopped_queue(), self.control_thread.io_loop.asyncio_loop
            )

    def set_parent(self, ident, parent, channel="shell"):
        """Overridden from parent to tell the display hook and output streams
        about the parent message.
        """
        super().set_parent(ident, parent, channel)
        if channel == "shell" and self.shell:
            self.shell.set_parent(parent)

    def init_metadata(self, parent):
        """Initialize metadata.

        Run at the beginning of each execution request.
        """
        md = super().init_metadata(parent)
        # FIXME: remove deprecated ipyparallel-specific code
        # This is required for ipyparallel < 5.0
        md.update(
            {
                "dependencies_met": True,
                "engine": self.ident,
            }
        )
        return md

    def finish_metadata(self, parent, metadata, reply_content):
        """Finish populating metadata.

        Run after completing an execution request.
        """
        # FIXME: remove deprecated ipyparallel-specific code
        # This is required by ipyparallel < 5.0
        metadata["status"] = reply_content["status"]
        if reply_content["status"] == "error" and reply_content["ename"] == "UnmetDependency":
            metadata["dependencies_met"] = False

        return metadata

    def _forward_input(self, allow_stdin=False):
        """Forward raw_input and getpass to the current frontend.

        via input_request
        """
        self._allow_stdin = allow_stdin

        self._sys_raw_input = builtins.input
        builtins.input = self.raw_input

        self._save_getpass = getpass.getpass
        getpass.getpass = self.getpass

    def _restore_input(self):
        """Restore raw_input, getpass"""
        builtins.input = self._sys_raw_input

        getpass.getpass = self._save_getpass

    @property
    def execution_count(self):
        if self.shell:
            return self.shell.execution_count
        return None

    @execution_count.setter
    def execution_count(self, value):
        # Ignore the incrementing done by KernelBase, in favour of our shell's
        # execution counter.
        pass

    @contextmanager
    def _cancel_on_sigint(self, future):
        """ContextManager for capturing SIGINT and cancelling a future

        SIGINT raises in the event loop when running async code,
        but we want it to halt a coroutine.

        Ideally, it would raise KeyboardInterrupt,
        but this turns it into a CancelledError.
        At least it gets a decent traceback to the user.
        """
        sigint_future: asyncio.Future[int] = asyncio.Future()

        # whichever future finishes first,
        # cancel the other one
        def cancel_unless_done(f, _ignored):
            if f.cancelled() or f.done():
                return
            f.cancel()

        # when sigint finishes,
        # abort the coroutine with CancelledError
        sigint_future.add_done_callback(partial(cancel_unless_done, future))
        # when the main future finishes,
        # stop watching for SIGINT events
        future.add_done_callback(partial(cancel_unless_done, sigint_future))

        def handle_sigint(*args):
            def set_sigint_result():
                if sigint_future.cancelled() or sigint_future.done():
                    return
                sigint_future.set_result(1)

            # use add_callback for thread safety
            self.io_loop.add_callback(set_sigint_result)

        # set the custom sigint handler during this context
        save_sigint = signal.signal(signal.SIGINT, handle_sigint)
        try:
            yield
        finally:
            # restore the previous sigint handler
            signal.signal(signal.SIGINT, save_sigint)

    async def execute_request(self, stream, ident, parent):
        """Override for cell output - cell reconciliation."""
        parent_header = extract_header(parent)
        self._associate_new_top_level_threads_with(parent_header)
        await super().execute_request(stream, ident, parent)

    async def do_execute(
        self,
        code,
        silent,
        store_history=True,
        user_expressions=None,
        allow_stdin=False,
        *,
        cell_meta=None,
        cell_id=None,
    ):
        """Handle code execution."""
        shell = self.shell  # we'll need this a lot here
        assert shell is not None

        self._forward_input(allow_stdin)

        reply_content: t.Dict[str, t.Any] = {}
        if hasattr(shell, "run_cell_async") and hasattr(shell, "should_run_async"):
            run_cell = shell.run_cell_async
            should_run_async = shell.should_run_async
            accepts_params = _accepts_parameters(run_cell, ["cell_id"])
        else:
            should_run_async = lambda cell: False  # noqa: ARG005, E731
            # older IPython,
            # use blocking run_cell and wrap it in coroutine

            async def run_cell(*args, **kwargs):
                return shell.run_cell(*args, **kwargs)

            accepts_params = _accepts_parameters(shell.run_cell, ["cell_id"])
        try:
            # default case: runner is asyncio and asyncio is already running
            # TODO: this should check every case for "are we inside the runner",
            # not just asyncio
            preprocessing_exc_tuple = None
            try:
                transformed_cell = shell.transform_cell(code)
            except Exception:
                transformed_cell = code
                preprocessing_exc_tuple = sys.exc_info()

            if (
                _asyncio_runner  # type:ignore[truthy-bool]
                and shell.loop_runner is _asyncio_runner
                and asyncio.get_event_loop().is_running()
                and should_run_async(
                    code,
                    transformed_cell=transformed_cell,
                    preprocessing_exc_tuple=preprocessing_exc_tuple,
                )
            ):
                if accepts_params["cell_id"]:
                    coro = run_cell(
                        code,
                        store_history=store_history,
                        silent=silent,
                        transformed_cell=transformed_cell,
                        preprocessing_exc_tuple=preprocessing_exc_tuple,
                        cell_id=cell_id,
                    )
                else:
                    coro = run_cell(
                        code,
                        store_history=store_history,
                        silent=silent,
                        transformed_cell=transformed_cell,
                        preprocessing_exc_tuple=preprocessing_exc_tuple,
                    )

                coro_future = asyncio.ensure_future(coro)

                with self._cancel_on_sigint(coro_future):
                    res = None
                    try:
                        res = await coro_future
                    finally:
                        shell.events.trigger("post_execute")
                        if not silent:
                            shell.events.trigger("post_run_cell", res)
            else:
                # runner isn't already running,
                # make synchronous call,
                # letting shell dispatch to loop runners
                if accepts_params["cell_id"]:
                    res = shell.run_cell(
                        code,
                        store_history=store_history,
                        silent=silent,
                        cell_id=cell_id,
                    )
                else:
                    res = shell.run_cell(code, store_history=store_history, silent=silent)
        finally:
            self._restore_input()

        err = res.error_before_exec if res.error_before_exec is not None else res.error_in_exec

        if res.success:
            reply_content["status"] = "ok"
        else:
            reply_content["status"] = "error"

            reply_content.update(
                {
                    "traceback": shell._last_traceback or [],
                    "ename": str(type(err).__name__),
                    "evalue": str(err),
                }
            )

            # FIXME: deprecated piece for ipyparallel (remove in 5.0):
            e_info = dict(engine_uuid=self.ident, engine_id=self.int_id, method="execute")
            reply_content["engine_info"] = e_info

        # Return the execution counter so clients can display prompts
        reply_content["execution_count"] = shell.execution_count - 1

        if "traceback" in reply_content:
            self.log.info(
                "Exception in execute request:\n%s",
                "\n".join(reply_content["traceback"]),
            )

        # At this point, we can tell whether the main code execution succeeded
        # or not.  If it did, we proceed to evaluate user_expressions
        if reply_content["status"] == "ok":
            reply_content["user_expressions"] = shell.user_expressions(user_expressions or {})
        else:
            # If there was an error, don't even try to compute expressions
            reply_content["user_expressions"] = {}

        # Payloads should be retrieved regardless of outcome, so we can both
        # recover partial output (that could have been generated early in a
        # block, before an error) and always clear the payload system.
        reply_content["payload"] = shell.payload_manager.read_payload()
        # Be aggressive about clearing the payload because we don't want
        # it to sit in memory until the next execute_request comes in.
        shell.payload_manager.clear_payload()

        return reply_content

    def do_complete(self, code, cursor_pos):
        """Handle code completion."""
        if _use_experimental_60_completion and self.use_experimental_completions:
            return self._experimental_do_complete(code, cursor_pos)

        # FIXME: IPython completers currently assume single line,
        # but completion messages give multi-line context
        # For now, extract line from cell, based on cursor_pos:
        if cursor_pos is None:
            cursor_pos = len(code)
        line, offset = line_at_cursor(code, cursor_pos)
        line_cursor = cursor_pos - offset
        assert self.shell is not None
        txt, matches = self.shell.complete("", line, line_cursor)
        return {
            "matches": matches,
            "cursor_end": cursor_pos,
            "cursor_start": cursor_pos - len(txt),
            "metadata": {},
            "status": "ok",
        }

    async def do_debug_request(self, msg):
        """Handle a debug request."""
        from .debugger import _is_debugpy_available

        if _is_debugpy_available:
            return await self.debugger.process_request(msg)
        return None

    def _experimental_do_complete(self, code, cursor_pos):
        """
        Experimental completions from IPython, using Jedi.
        """
        if cursor_pos is None:
            cursor_pos = len(code)
        with _provisionalcompleter():
            assert self.shell is not None
            raw_completions = self.shell.Completer.completions(code, cursor_pos)
            completions = list(_rectify_completions(code, raw_completions))

            comps = []
            for comp in completions:
                comps.append(
                    dict(
                        start=comp.start,
                        end=comp.end,
                        text=comp.text,
                        type=comp.type,
                        signature=comp.signature,
                    )
                )

        if completions:
            s = completions[0].start
            e = completions[0].end
            matches = [c.text for c in completions]
        else:
            s = cursor_pos
            e = cursor_pos
            matches = []

        return {
            "matches": matches,
            "cursor_end": e,
            "cursor_start": s,
            "metadata": {_EXPERIMENTAL_KEY_NAME: comps},
            "status": "ok",
        }

    def do_inspect(self, code, cursor_pos, detail_level=0, omit_sections=()):
        """Handle code inspection."""
        name = token_at_cursor(code, cursor_pos)

        reply_content: t.Dict[str, t.Any] = {"status": "ok"}
        reply_content["data"] = {}
        reply_content["metadata"] = {}
        assert self.shell is not None
        try:
            if release.version_info >= (8,):
                # `omit_sections` keyword will be available in IPython 8, see
                # https://github.com/ipython/ipython/pull/13343
                bundle = self.shell.object_inspect_mime(
                    name,
                    detail_level=detail_level,
                    omit_sections=omit_sections,
                )
            else:
                bundle = self.shell.object_inspect_mime(name, detail_level=detail_level)
            reply_content["data"].update(bundle)
            if not self.shell.enable_html_pager:
                reply_content["data"].pop("text/html")
            reply_content["found"] = True
        except KeyError:
            reply_content["found"] = False

        return reply_content

    def do_history(
        self,
        hist_access_type,
        output,
        raw,
        session=0,
        start=0,
        stop=None,
        n=None,
        pattern=None,
        unique=False,
    ):
        """Handle code history."""
        assert self.shell is not None
        if hist_access_type == "tail":
            hist = self.shell.history_manager.get_tail(
                n, raw=raw, output=output, include_latest=True
            )

        elif hist_access_type == "range":
            hist = self.shell.history_manager.get_range(
                session, start, stop, raw=raw, output=output
            )

        elif hist_access_type == "search":
            hist = self.shell.history_manager.search(
                pattern, raw=raw, output=output, n=n, unique=unique
            )
        else:
            hist = []

        return {
            "status": "ok",
            "history": list(hist),
        }

    def do_shutdown(self, restart):
        """Handle kernel shutdown."""
        if self.shell:
            self.shell.exit_now = True
        return dict(status="ok", restart=restart)

    def do_is_complete(self, code):
        """Handle an is_complete request."""
        transformer_manager = getattr(self.shell, "input_transformer_manager", None)
        if transformer_manager is None:
            # input_splitter attribute is deprecated
            assert self.shell is not None
            transformer_manager = self.shell.input_splitter
        status, indent_spaces = transformer_manager.check_complete(code)
        r = {"status": status}
        if status == "incomplete":
            r["indent"] = " " * indent_spaces
        return r

    def do_apply(self, content, bufs, msg_id, reply_metadata):
        """Handle an apply request."""
        try:
            from ipyparallel.serialize import serialize_object, unpack_apply_message
        except ImportError:
            from .serialize import serialize_object, unpack_apply_message

        shell = self.shell
        assert shell is not None
        try:
            working = shell.user_ns

            prefix = "_" + str(msg_id).replace("-", "") + "_"
            f, args, kwargs = unpack_apply_message(bufs, working, copy=False)

            fname = getattr(f, "__name__", "f")

            fname = prefix + "f"
            argname = prefix + "args"
            kwargname = prefix + "kwargs"
            resultname = prefix + "result"

            ns = {fname: f, argname: args, kwargname: kwargs, resultname: None}
            # print ns
            working.update(ns)
            code = f"{resultname} = {fname}(*{argname},**{kwargname})"
            try:
                exec(code, shell.user_global_ns, shell.user_ns)
                result = working.get(resultname)
            finally:
                for key in ns:
                    working.pop(key)

            assert self.session is not None
            result_buf = serialize_object(
                result,
                buffer_threshold=self.session.buffer_threshold,
                item_threshold=self.session.item_threshold,
            )

        except BaseException as e:
            # invoke IPython traceback formatting
            shell.showtraceback()
            reply_content = {
                "traceback": shell._last_traceback or [],
                "ename": str(type(e).__name__),
                "evalue": str(e),
            }
            # FIXME: deprecated piece for ipyparallel (remove in 5.0):
            e_info = dict(engine_uuid=self.ident, engine_id=self.int_id, method="apply")
            reply_content["engine_info"] = e_info

            self.send_response(
                self.iopub_socket,
                "error",
                reply_content,
                ident=self._topic("error"),
            )
            self.log.info("Exception in apply request:\n%s", "\n".join(reply_content["traceback"]))
            result_buf = []
            reply_content["status"] = "error"
        else:
            reply_content = {"status": "ok"}

        return reply_content, result_buf

    def do_clear(self):
        """Clear the kernel."""
        if self.shell:
            self.shell.reset(False)
        return dict(status="ok")

    def _associate_new_top_level_threads_with(self, parent_header):
        """Store the parent header to associate it with new top-level threads"""
        self._new_threads_parent_header = parent_header

    def _initialize_thread_hooks(self):
        """Store thread hierarchy and thread-parent_header associations."""
        stdout = self._stdout
        stderr = self._stderr
        kernel_thread_ident = threading.get_ident()
        kernel = self
        _threading_Thread_run = threading.Thread.run
        _threading_Thread__init__ = threading.Thread.__init__

        def run_closure(self: threading.Thread):
            """Wrap the `threading.Thread.start` to intercept thread identity.

            This is needed because there is no "start" hook yet, but there
            might be one in the future: https://bugs.python.org/issue14073

            This is a no-op if the `self._stdout` and `self._stderr` are not
            sub-classes of `OutStream`.
            """

            try:
                parent = self._ipykernel_parent_thread_ident  # type:ignore[attr-defined]
            except AttributeError:
                return
            for stream in [stdout, stderr]:
                if isinstance(stream, OutStream):
                    if parent == kernel_thread_ident:
                        stream._thread_to_parent_header[
                            self.ident
                        ] = kernel._new_threads_parent_header
                    else:
                        stream._thread_to_parent[self.ident] = parent
            _threading_Thread_run(self)

        def init_closure(self: threading.Thread, *args, **kwargs):
            _threading_Thread__init__(self, *args, **kwargs)
            self._ipykernel_parent_thread_ident = threading.get_ident()  # type:ignore[attr-defined]

        threading.Thread.__init__ = init_closure  # type:ignore[method-assign]
        threading.Thread.run = run_closure  # type:ignore[method-assign]

    def _clean_thread_parent_frames(
        self, phase: t.Literal["start", "stop"], info: t.Dict[str, t.Any]
    ):
        """Clean parent frames of threads which are no longer running.
        This is meant to be invoked by garbage collector callback hook.

        The implementation enumerates the threads because there is no "exit" hook yet,
        but there might be one in the future: https://bugs.python.org/issue14073

        This is a no-op if the `self._stdout` and `self._stderr` are not
        sub-classes of `OutStream`.
        """
        # Only run before the garbage collector starts
        if phase != "start":
            return
        active_threads = {thread.ident for thread in threading.enumerate()}
        for stream in [self._stdout, self._stderr]:
            if isinstance(stream, OutStream):
                thread_to_parent_header = stream._thread_to_parent_header
                for identity in list(thread_to_parent_header.keys()):
                    if identity not in active_threads:
                        try:
                            del thread_to_parent_header[identity]
                        except KeyError:
                            pass
                thread_to_parent = stream._thread_to_parent
                for identity in list(thread_to_parent.keys()):
                    if identity not in active_threads:
                        try:
                            del thread_to_parent[identity]
                        except KeyError:
                            pass


# This exists only for backwards compatibility - use IPythonKernel instead


class Kernel(IPythonKernel):
    """DEPRECATED.  An alias for the IPython kernel class."""

    def __init__(self, *args, **kwargs):  # pragma: no cover
        """DEPRECATED."""
        import warnings

        warnings.warn(
            "Kernel is a deprecated alias of ipykernel.ipkernel.IPythonKernel",
            DeprecationWarning,
            stacklevel=2,
        )
        super().__init__(*args, **kwargs)