Vehicle-Anti-Theft-Face-Rec.../venv/Lib/site-packages/jupyter_console/ptshell.py

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2020-11-12 16:05:57 +00:00
"""IPython terminal interface using prompt_toolkit in place of readline"""
from __future__ import print_function
import asyncio
import base64
import errno
from getpass import getpass
from io import BytesIO
import os
from queue import Empty
import signal
import subprocess
import sys
import time
from warnings import warn
from typing import Dict as DictType, Any as AnyType
from zmq import ZMQError
from IPython.core import page
from ipython_genutils.tempdir import NamedFileInTemporaryDirectory
from traitlets import (
Bool,
Integer,
Float,
Unicode,
List,
Dict,
Enum,
Instance,
Any,
)
from traitlets.config import SingletonConfigurable
from .completer import ZMQCompleter
from .zmqhistory import ZMQHistoryManager
from . import __version__
# Discriminate version3 for asyncio
from prompt_toolkit import __version__ as ptk_version
PTK3 = ptk_version.startswith('3.')
if not PTK3:
# use_ayncio_event_loop obsolete in PKT3
from prompt_toolkit.eventloop.defaults import use_asyncio_event_loop
from prompt_toolkit.completion import Completer, Completion
from prompt_toolkit.document import Document
from prompt_toolkit.enums import DEFAULT_BUFFER, EditingMode
from prompt_toolkit.filters import (
Condition,
has_focus,
has_selection,
vi_insert_mode,
emacs_insert_mode,
is_done,
)
from prompt_toolkit.history import InMemoryHistory
from prompt_toolkit.patch_stdout import patch_stdout
from prompt_toolkit.shortcuts.prompt import PromptSession
from prompt_toolkit.shortcuts import print_formatted_text, CompleteStyle
from prompt_toolkit.key_binding import KeyBindings
from prompt_toolkit.lexers import PygmentsLexer
from prompt_toolkit.layout.processors import (
ConditionalProcessor,
HighlightMatchingBracketProcessor,
)
from prompt_toolkit.styles import merge_styles
from prompt_toolkit.styles.pygments import (style_from_pygments_cls,
style_from_pygments_dict)
from prompt_toolkit.formatted_text import PygmentsTokens, FormattedText
from prompt_toolkit.output import ColorDepth
from prompt_toolkit.utils import suspend_to_background_supported
from pygments.styles import get_style_by_name
from pygments.lexers import get_lexer_by_name
from pygments.util import ClassNotFound
from pygments.token import Token
def ask_yes_no(prompt, default=None, interrupt=None):
"""Asks a question and returns a boolean (y/n) answer.
If default is given (one of 'y','n'), it is used if the user input is
empty. If interrupt is given (one of 'y','n'), it is used if the user
presses Ctrl-C. Otherwise the question is repeated until an answer is
given.
An EOF is treated as the default answer. If there is no default, an
exception is raised to prevent infinite loops.
Valid answers are: y/yes/n/no (match is not case sensitive)."""
answers = {'y': True, 'n': False, 'yes': True, 'no': False}
ans = None
while ans not in answers.keys():
try:
ans = input(prompt + ' ').lower()
if not ans: # response was an empty string
ans = default
except KeyboardInterrupt:
if interrupt:
ans = interrupt
except EOFError:
if default in answers.keys():
ans = default
print()
else:
raise
return answers[ans]
async def async_input(prompt, loop=None):
"""Simple async version of input using a the default executor"""
if loop is None:
loop = asyncio.get_event_loop()
raw = await loop.run_in_executor(None, input, prompt)
return raw
def get_pygments_lexer(name):
name = name.lower()
if name == 'ipython2':
from IPython.lib.lexers import IPythonLexer
return IPythonLexer
elif name == 'ipython3':
from IPython.lib.lexers import IPython3Lexer
return IPython3Lexer
else:
try:
return get_lexer_by_name(name).__class__
except ClassNotFound:
warn("No lexer found for language %r. Treating as plain text." % name)
from pygments.lexers.special import TextLexer
return TextLexer
class JupyterPTCompleter(Completer):
"""Adaptor to provide kernel completions to prompt_toolkit"""
def __init__(self, jup_completer):
self.jup_completer = jup_completer
def get_completions(self, document, complete_event):
if not document.current_line.strip():
return
content = self.jup_completer.complete_request(
code=document.text,
cursor_pos=document.cursor_position
)
meta = content["metadata"]
if "_jupyter_types_experimental" in meta:
try:
new_meta = {}
for c, m in zip(
content["matches"], meta["_jupyter_types_experimental"]
):
new_meta[c] = m["type"]
meta = new_meta
except:
pass
start_pos = content["cursor_start"] - document.cursor_position
for m in content["matches"]:
yield Completion(
m,
start_position=start_pos,
display_meta=meta.get(m, "?"),
)
class ZMQTerminalInteractiveShell(SingletonConfigurable):
readline_use = False
pt_cli = None
_executing = False
_execution_state = Unicode('')
_pending_clearoutput = False
_eventloop = None
own_kernel = False # Changed by ZMQTerminalIPythonApp
editing_mode = Unicode('emacs', config=True,
help="Shortcut style to use at the prompt. 'vi' or 'emacs'.",
)
highlighting_style = Unicode('', config=True,
help="The name of a Pygments style to use for syntax highlighting"
)
highlighting_style_overrides = Dict(config=True,
help="Override highlighting format for specific tokens"
)
true_color = Bool(False, config=True,
help=("Use 24bit colors instead of 256 colors in prompt highlighting. "
"If your terminal supports true color, the following command "
"should print 'TRUECOLOR' in orange: "
"printf \"\\x1b[38;2;255;100;0mTRUECOLOR\\x1b[0m\\n\"")
)
history_load_length = Integer(1000, config=True,
help="How many history items to load into memory"
)
banner = Unicode('Jupyter console {version}\n\n{kernel_banner}', config=True,
help=("Text to display before the first prompt. Will be formatted with "
"variables {version} and {kernel_banner}.")
)
kernel_timeout = Float(60, config=True,
help="""Timeout for giving up on a kernel (in seconds).
On first connect and restart, the console tests whether the
kernel is running and responsive by sending kernel_info_requests.
This sets the timeout in seconds for how long the kernel can take
before being presumed dead.
"""
)
image_handler = Enum(('PIL', 'stream', 'tempfile', 'callable'),
'PIL', config=True, allow_none=True, help=
"""
Handler for image type output. This is useful, for example,
when connecting to the kernel in which pylab inline backend is
activated. There are four handlers defined. 'PIL': Use
Python Imaging Library to popup image; 'stream': Use an
external program to show the image. Image will be fed into
the STDIN of the program. You will need to configure
`stream_image_handler`; 'tempfile': Use an external program to
show the image. Image will be saved in a temporally file and
the program is called with the temporally file. You will need
to configure `tempfile_image_handler`; 'callable': You can set
any Python callable which is called with the image data. You
will need to configure `callable_image_handler`.
"""
)
stream_image_handler = List(config=True, help=
"""
Command to invoke an image viewer program when you are using
'stream' image handler. This option is a list of string where
the first element is the command itself and reminders are the
options for the command. Raw image data is given as STDIN to
the program.
"""
)
tempfile_image_handler = List(config=True, help=
"""
Command to invoke an image viewer program when you are using
'tempfile' image handler. This option is a list of string
where the first element is the command itself and reminders
are the options for the command. You can use {file} and
{format} in the string to represent the location of the
generated image file and image format.
"""
)
callable_image_handler = Any(
config=True,
help="""
Callable object called via 'callable' image handler with one
argument, `data`, which is `msg["content"]["data"]` where
`msg` is the message from iopub channel. For example, you can
find base64 encoded PNG data as `data['image/png']`. If your function
can't handle the data supplied, it should return `False` to indicate
this.
"""
)
mime_preference = List(
default_value=['image/png', 'image/jpeg', 'image/svg+xml'],
config=True, help=
"""
Preferred object representation MIME type in order. First
matched MIME type will be used.
"""
)
use_kernel_is_complete = Bool(True, config=True,
help="""Whether to use the kernel's is_complete message
handling. If False, then the frontend will use its
own is_complete handler.
"""
)
kernel_is_complete_timeout = Float(1, config=True,
help="""Timeout (in seconds) for giving up on a kernel's is_complete
response.
If the kernel does not respond at any point within this time,
the kernel will no longer be asked if code is complete, and the
console will default to the built-in is_complete test.
"""
)
# This is configurable on JupyterConsoleApp; this copy is not configurable
# to avoid a duplicate config option.
confirm_exit = Bool(True,
help="""Set to display confirmation dialog on exit.
You can always use 'exit' or 'quit', to force a
direct exit without any confirmation.
""",
)
display_completions = Enum(
("column", "multicolumn", "readlinelike"),
help=(
"Options for displaying tab completions, 'column', 'multicolumn', and "
"'readlinelike'. These options are for `prompt_toolkit`, see "
"`prompt_toolkit` documentation for more information."
),
default_value="multicolumn",
).tag(config=True)
prompt_includes_vi_mode = Bool(True,
help="Display the current vi mode (when using vi editing mode)."
).tag(config=True)
highlight_matching_brackets = Bool(True, help="Highlight matching brackets.",).tag(
config=True
)
manager = Instance("jupyter_client.KernelManager", allow_none=True)
client = Instance("jupyter_client.KernelClient", allow_none=True)
def _client_changed(self, name, old, new):
self.session_id = new.session.session
session_id = Unicode()
def _banner1_default(self):
return "Jupyter Console {version}\n".format(version=__version__)
simple_prompt = Bool(False,
help="""Use simple fallback prompt. Features may be limited."""
).tag(config=True)
def __init__(self, **kwargs):
# This is where traits with a config_key argument are updated
# from the values on config.
super(ZMQTerminalInteractiveShell, self).__init__(**kwargs)
self.configurables = [self]
self.init_history()
self.init_completer()
self.init_io()
self.init_kernel_info()
self.init_prompt_toolkit_cli()
self.keep_running = True
self.execution_count = 1
def init_completer(self):
"""Initialize the completion machinery.
This creates completion machinery that can be used by client code,
either interactively in-process (typically triggered by the readline
library), programmatically (such as in test suites) or out-of-process
(typically over the network by remote frontends).
"""
self.Completer = ZMQCompleter(self, self.client, config=self.config)
def init_history(self):
"""Sets up the command history. """
self.history_manager = ZMQHistoryManager(client=self.client)
self.configurables.append(self.history_manager)
def vi_mode(self):
if (getattr(self, 'editing_mode', None) == 'vi'
and self.prompt_includes_vi_mode):
return '['+str(self.pt_cli.app.vi_state.input_mode)[3:6]+'] '
return ''
def get_prompt_tokens(self, ec=None):
if ec is None:
ec = self.execution_count
return [
(Token.Prompt, self.vi_mode()),
(Token.Prompt, 'In ['),
(Token.PromptNum, str(ec)),
(Token.Prompt, ']: '),
]
def get_continuation_tokens(self, width):
return [
(Token.Prompt, (" " * (width - 5)) + "...: "),
]
def get_out_prompt_tokens(self):
return [
(Token.OutPrompt, 'Out['),
(Token.OutPromptNum, str(self.execution_count)),
(Token.OutPrompt, ']: ')
]
def print_out_prompt(self):
tokens = self.get_out_prompt_tokens()
print_formatted_text(PygmentsTokens(tokens), end='',
style = self.pt_cli.app.style)
def get_remote_prompt_tokens(self):
return [
(Token.RemotePrompt, self.other_output_prefix),
]
def print_remote_prompt(self, ec=None):
tokens = self.get_remote_prompt_tokens() + self.get_prompt_tokens(ec=ec)
print_formatted_text(
PygmentsTokens(tokens), end="", style=self.pt_cli.app.style
)
@property
def pt_complete_style(self):
return {
"multicolumn": CompleteStyle.MULTI_COLUMN,
"column": CompleteStyle.COLUMN,
"readlinelike": CompleteStyle.READLINE_LIKE,
}[self.display_completions]
kernel_info: DictType[str, AnyType] = {}
def init_kernel_info(self):
"""Wait for a kernel to be ready, and store kernel info"""
timeout = self.kernel_timeout
tic = time.time()
self.client.hb_channel.unpause()
msg_id = self.client.kernel_info()
while True:
try:
reply = self.client.get_shell_msg(timeout=1)
except Empty as e:
if (time.time() - tic) > timeout:
raise RuntimeError("Kernel didn't respond to kernel_info_request") from e
else:
if reply['parent_header'].get('msg_id') == msg_id:
self.kernel_info = reply['content']
return
def show_banner(self):
print(self.banner.format(version=__version__,
kernel_banner=self.kernel_info.get('banner', '')),end='',flush=True)
def init_prompt_toolkit_cli(self):
if self.simple_prompt or ('JUPYTER_CONSOLE_TEST' in os.environ):
# Simple restricted interface for tests so we can find prompts with
# pexpect. Multi-line input not supported.
async def prompt():
prompt = 'In [%d]: ' % self.execution_count
raw = await async_input(prompt)
return raw
self.prompt_for_code = prompt
self.print_out_prompt = \
lambda: print('Out[%d]: ' % self.execution_count, end='')
return
kb = KeyBindings()
insert_mode = vi_insert_mode | emacs_insert_mode
@kb.add("enter", filter=(has_focus(DEFAULT_BUFFER)
& ~has_selection
& insert_mode
))
def _(event):
b = event.current_buffer
d = b.document
if not (d.on_last_line or d.cursor_position_row >= d.line_count
- d.empty_line_count_at_the_end()):
b.newline()
return
# Pressing enter flushes any pending display. This also ensures
# the displayed execution_count is correct.
self.handle_iopub()
more, indent = self.check_complete(d.text)
if (not more) and b.accept_handler:
b.validate_and_handle()
else:
b.insert_text('\n' + indent)
@kb.add("c-c", filter=has_focus(DEFAULT_BUFFER))
def _(event):
event.current_buffer.reset()
@kb.add("c-\\", filter=has_focus(DEFAULT_BUFFER))
def _(event):
raise EOFError
@kb.add("c-z", filter=Condition(lambda: suspend_to_background_supported()))
def _(event):
event.cli.suspend_to_background()
@kb.add("c-o", filter=(has_focus(DEFAULT_BUFFER) & emacs_insert_mode))
def _(event):
event.current_buffer.insert_text("\n")
# Pre-populate history from IPython's history database
history = InMemoryHistory()
last_cell = u""
for _, _, cell in self.history_manager.get_tail(self.history_load_length,
include_latest=True):
# Ignore blank lines and consecutive duplicates
cell = cell.rstrip()
if cell and (cell != last_cell):
history.append_string(cell)
style_overrides = {
Token.Prompt: '#009900',
Token.PromptNum: '#00ff00 bold',
Token.OutPrompt: '#ff2200',
Token.OutPromptNum: '#ff0000 bold',
Token.RemotePrompt: '#999900',
}
if self.highlighting_style:
style_cls = get_style_by_name(self.highlighting_style)
else:
style_cls = get_style_by_name('default')
# The default theme needs to be visible on both a dark background
# and a light background, because we can't tell what the terminal
# looks like. These tweaks to the default theme help with that.
style_overrides.update({
Token.Number: '#007700',
Token.Operator: 'noinherit',
Token.String: '#BB6622',
Token.Name.Function: '#2080D0',
Token.Name.Class: 'bold #2080D0',
Token.Name.Namespace: 'bold #2080D0',
})
style_overrides.update(self.highlighting_style_overrides)
style = merge_styles([
style_from_pygments_cls(style_cls),
style_from_pygments_dict(style_overrides),
])
editing_mode = getattr(EditingMode, self.editing_mode.upper())
langinfo = self.kernel_info.get('language_info', {})
lexer = langinfo.get('pygments_lexer', langinfo.get('name', 'text'))
# If enabled in the settings, highlight matching brackets
# when the DEFAULT_BUFFER has the focus
input_processors = [ConditionalProcessor(
processor=HighlightMatchingBracketProcessor(chars='[](){}'),
filter=has_focus(DEFAULT_BUFFER) & ~is_done &
Condition(lambda: self.highlight_matching_brackets))
]
# Tell prompt_toolkit to use the asyncio event loop.
# Obsolete in prompt_toolkit.v3
if not PTK3:
use_asyncio_event_loop()
self.pt_cli = PromptSession(
message=(lambda: PygmentsTokens(self.get_prompt_tokens())),
multiline=True,
complete_style=self.pt_complete_style,
editing_mode=editing_mode,
lexer=PygmentsLexer(get_pygments_lexer(lexer)),
prompt_continuation=(
lambda width, lineno, is_soft_wrap: PygmentsTokens(
self.get_continuation_tokens(width)
)
),
key_bindings=kb,
history=history,
completer=JupyterPTCompleter(self.Completer),
enable_history_search=True,
style=style,
input_processors=input_processors,
color_depth=(ColorDepth.TRUE_COLOR if self.true_color else None),
)
async def prompt_for_code(self):
if self.next_input:
default = self.next_input
self.next_input = None
else:
default = ''
if PTK3:
text = await self.pt_cli.prompt_async(default=default)
else:
text = await self.pt_cli.prompt(default=default, async_=True)
return text
def init_io(self):
if sys.platform not in {'win32', 'cli'}:
return
import colorama
colorama.init()
def check_complete(self, code):
if self.use_kernel_is_complete:
msg_id = self.client.is_complete(code)
try:
return self.handle_is_complete_reply(msg_id,
timeout=self.kernel_is_complete_timeout)
except SyntaxError:
return False, ""
else:
lines = code.splitlines()
if len(lines):
more = (lines[-1] != "")
return more, ""
else:
return False, ""
def ask_exit(self):
self.keep_running = False
# This is set from payloads in handle_execute_reply
next_input = None
def pre_prompt(self):
if self.next_input:
# We can't set the buffer here, because it will be reset just after
# this. Adding a callable to pre_run_callables does what we need
# after the buffer is reset.
s = self.next_input
def set_doc():
self.pt_cli.app.buffer.document = Document(s)
if hasattr(self.pt_cli, 'pre_run_callables'):
self.pt_cli.app.pre_run_callables.append(set_doc)
else:
# Older version of prompt_toolkit; it's OK to set the document
# directly here.
set_doc()
self.next_input = None
async def interact(self, loop=None, display_banner=None):
while self.keep_running:
print('\n', end='')
try:
code = await self.prompt_for_code()
except EOFError:
if (not self.confirm_exit) or \
ask_yes_no('Do you really want to exit ([y]/n)?', 'y', 'n'):
self.ask_exit()
else:
if code:
self.run_cell(code, store_history=True)
def mainloop(self):
self.keepkernel = not self.own_kernel
loop = asyncio.get_event_loop()
# An extra layer of protection in case someone mashing Ctrl-C breaks
# out of our internal code.
while True:
try:
tasks = [self.interact(loop=loop)]
if self.include_other_output:
# only poll the iopub channel asynchronously if we
# wish to include external content
tasks.append(self.handle_external_iopub(loop=loop))
main_task = asyncio.wait(tasks, loop=loop, return_when=asyncio.FIRST_COMPLETED)
_, pending = loop.run_until_complete(main_task)
for task in pending:
task.cancel()
try:
loop.run_until_complete(asyncio.gather(*pending))
except asyncio.CancelledError:
pass
loop.stop()
loop.close()
break
except KeyboardInterrupt:
print("\nKeyboardInterrupt escaped interact()\n")
if self._eventloop:
self._eventloop.close()
if self.keepkernel and not self.own_kernel:
print('keeping kernel alive')
elif self.keepkernel and self.own_kernel:
print("owning kernel, cannot keep it alive")
self.client.shutdown()
else:
print("Shutting down kernel")
self.client.shutdown()
def run_cell(self, cell, store_history=True):
"""Run a complete IPython cell.
Parameters
----------
cell : str
The code (including IPython code such as %magic functions) to run.
store_history : bool
If True, the raw and translated cell will be stored in IPython's
history. For user code calling back into IPython's machinery, this
should be set to False.
"""
if (not cell) or cell.isspace():
# pressing enter flushes any pending display
self.handle_iopub()
return
# flush stale replies, which could have been ignored, due to missed heartbeats
while self.client.shell_channel.msg_ready():
self.client.shell_channel.get_msg()
# execute takes 'hidden', which is the inverse of store_hist
msg_id = self.client.execute(cell, not store_history)
# first thing is wait for any side effects (output, stdin, etc.)
self._executing = True
self._execution_state = "busy"
while self._execution_state != 'idle' and self.client.is_alive():
try:
self.handle_input_request(msg_id, timeout=0.05)
except Empty:
# display intermediate print statements, etc.
self.handle_iopub(msg_id)
except ZMQError as e:
# Carry on if polling was interrupted by a signal
if e.errno != errno.EINTR:
raise
# after all of that is done, wait for the execute reply
while self.client.is_alive():
try:
self.handle_execute_reply(msg_id, timeout=0.05)
except Empty:
pass
else:
break
self._executing = False
#-----------------
# message handlers
#-----------------
def handle_execute_reply(self, msg_id, timeout=None):
msg = self.client.shell_channel.get_msg(block=False, timeout=timeout)
if msg["parent_header"].get("msg_id", None) == msg_id:
self.handle_iopub(msg_id)
content = msg["content"]
status = content['status']
if status == 'aborted':
self.write('Aborted\n')
return
elif status == 'ok':
# handle payloads
for item in content.get("payload", []):
source = item['source']
if source == 'page':
page.page(item['data']['text/plain'])
elif source == 'set_next_input':
self.next_input = item['text']
elif source == 'ask_exit':
self.keepkernel = item.get('keepkernel', False)
self.ask_exit()
elif status == 'error':
pass
self.execution_count = int(content["execution_count"] + 1)
def handle_is_complete_reply(self, msg_id, timeout=None):
"""
Wait for a repsonse from the kernel, and return two values:
more? - (boolean) should the frontend ask for more input
indent - an indent string to prefix the input
Overloaded methods may want to examine the comeplete source. Its is
in the self._source_lines_buffered list.
"""
## Get the is_complete response:
msg = None
try:
msg = self.client.shell_channel.get_msg(block=True, timeout=timeout)
except Empty:
warn('The kernel did not respond to an is_complete_request. '
'Setting `use_kernel_is_complete` to False.')
self.use_kernel_is_complete = False
return False, ""
## Handle response:
if msg["parent_header"].get("msg_id", None) != msg_id:
warn('The kernel did not respond properly to an is_complete_request: %s.' % str(msg))
return False, ""
else:
status = msg["content"].get("status", None)
indent = msg["content"].get("indent", "")
## Return more? and indent string
if status == "complete":
return False, indent
elif status == "incomplete":
return True, indent
elif status == "invalid":
raise SyntaxError()
elif status == "unknown":
return False, indent
else:
warn('The kernel sent an invalid is_complete_reply status: "%s".' % status)
return False, indent
include_other_output = Bool(False, config=True,
help="""Whether to include output from clients
other than this one sharing the same kernel.
"""
)
other_output_prefix = Unicode("Remote ", config=True,
help="""Prefix to add to outputs coming from clients other than this one.
Only relevant if include_other_output is True.
"""
)
def from_here(self, msg):
"""Return whether a message is from this session"""
return msg['parent_header'].get("session", self.session_id) == self.session_id
def include_output(self, msg):
"""Return whether we should include a given output message"""
from_here = self.from_here(msg)
if msg['msg_type'] == 'execute_input':
# only echo inputs not from here
return self.include_other_output and not from_here
if self.include_other_output:
return True
else:
return from_here
async def handle_external_iopub(self, loop=None):
while self.keep_running:
# we need to check for keep_running from time to time as
# we are blocking in an executor block which cannot be cancelled.
poll_result = await loop.run_in_executor(
None, self.client.iopub_channel.socket.poll, 500)
if(poll_result):
self.handle_iopub()
def handle_iopub(self, msg_id=''):
"""Process messages on the IOPub channel
This method consumes and processes messages on the IOPub channel,
such as stdout, stderr, execute_result and status.
It only displays output that is caused by this session.
"""
while self.client.iopub_channel.msg_ready():
sub_msg = self.client.iopub_channel.get_msg()
msg_type = sub_msg['header']['msg_type']
parent = sub_msg["parent_header"]
# Update execution_count in case it changed in another session
if msg_type == "execute_input":
self.execution_count = int(sub_msg["content"]["execution_count"]) + 1
if self.include_output(sub_msg):
if msg_type == 'status':
self._execution_state = sub_msg["content"]["execution_state"]
elif msg_type == 'stream':
if sub_msg["content"]["name"] == "stdout":
if self._pending_clearoutput:
print("\r", end="")
self._pending_clearoutput = False
print(sub_msg["content"]["text"], end="")
sys.stdout.flush()
elif sub_msg["content"]["name"] == "stderr":
if self._pending_clearoutput:
print("\r", file=sys.stderr, end="")
self._pending_clearoutput = False
print(sub_msg["content"]["text"], file=sys.stderr, end="")
sys.stderr.flush()
elif msg_type == 'execute_result':
if self._pending_clearoutput:
print("\r", end="")
self._pending_clearoutput = False
self.execution_count = int(sub_msg["content"]["execution_count"])
if not self.from_here(sub_msg):
sys.stdout.write(self.other_output_prefix)
format_dict = sub_msg["content"]["data"]
self.handle_rich_data(format_dict)
if 'text/plain' not in format_dict:
continue
# prompt_toolkit writes the prompt at a slightly lower level,
# so flush streams first to ensure correct ordering.
sys.stdout.flush()
sys.stderr.flush()
self.print_out_prompt()
text_repr = format_dict['text/plain']
if '\n' in text_repr:
# For multi-line results, start a new line after prompt
print()
print(text_repr)
# Remote: add new prompt
if not self.from_here(sub_msg):
sys.stdout.write('\n')
sys.stdout.flush()
self.print_remote_prompt()
elif msg_type == 'display_data':
data = sub_msg["content"]["data"]
handled = self.handle_rich_data(data)
if not handled:
if not self.from_here(sub_msg):
sys.stdout.write(self.other_output_prefix)
# if it was an image, we handled it by now
if 'text/plain' in data:
print(data['text/plain'])
# If execute input: print it
elif msg_type == 'execute_input':
content = sub_msg['content']
ec = content.get('execution_count', self.execution_count - 1)
# New line
sys.stdout.write('\n')
sys.stdout.flush()
# With `Remote In [3]: `
self.print_remote_prompt(ec=ec)
# And the code
sys.stdout.write(content['code'] + '\n')
elif msg_type == 'clear_output':
if sub_msg["content"]["wait"]:
self._pending_clearoutput = True
else:
print("\r", end="")
elif msg_type == 'error':
for frame in sub_msg["content"]["traceback"]:
print(frame, file=sys.stderr)
_imagemime = {
'image/png': 'png',
'image/jpeg': 'jpeg',
'image/svg+xml': 'svg',
}
def handle_rich_data(self, data):
for mime in self.mime_preference:
if mime in data and mime in self._imagemime:
if self.handle_image(data, mime):
return True
return False
def handle_image(self, data, mime):
handler = getattr(
self, 'handle_image_{0}'.format(self.image_handler), None)
if handler:
return handler(data, mime)
def handle_image_PIL(self, data, mime):
if mime not in ('image/png', 'image/jpeg'):
return False
try:
from PIL import Image, ImageShow
except ImportError:
return False
raw = base64.decodebytes(data[mime].encode('ascii'))
img = Image.open(BytesIO(raw))
return ImageShow.show(img)
def handle_image_stream(self, data, mime):
raw = base64.decodebytes(data[mime].encode('ascii'))
imageformat = self._imagemime[mime]
fmt = dict(format=imageformat)
args = [s.format(**fmt) for s in self.stream_image_handler]
with open(os.devnull, 'w') as devnull:
proc = subprocess.Popen(
args, stdin=subprocess.PIPE,
stdout=devnull, stderr=devnull)
proc.communicate(raw)
return (proc.returncode == 0)
def handle_image_tempfile(self, data, mime):
raw = base64.decodebytes(data[mime].encode('ascii'))
imageformat = self._imagemime[mime]
filename = 'tmp.{0}'.format(imageformat)
with NamedFileInTemporaryDirectory(filename) as f, \
open(os.devnull, 'w') as devnull:
f.write(raw)
f.flush()
fmt = dict(file=f.name, format=imageformat)
args = [s.format(**fmt) for s in self.tempfile_image_handler]
rc = subprocess.call(args, stdout=devnull, stderr=devnull)
return (rc == 0)
def handle_image_callable(self, data, mime):
res = self.callable_image_handler(data)
if res is not False:
# If handler func returns e.g. None, assume it has handled the data.
res = True
return res
def handle_input_request(self, msg_id, timeout=0.1):
""" Method to capture raw_input
"""
req = self.client.stdin_channel.get_msg(timeout=timeout)
# in case any iopub came while we were waiting:
self.handle_iopub(msg_id)
if msg_id == req["parent_header"].get("msg_id"):
# wrap SIGINT handler
real_handler = signal.getsignal(signal.SIGINT)
def double_int(sig, frame):
# call real handler (forwards sigint to kernel),
# then raise local interrupt, stopping local raw_input
real_handler(sig, frame)
raise KeyboardInterrupt
signal.signal(signal.SIGINT, double_int)
content = req['content']
read = getpass if content.get('password', False) else input
try:
raw_data = read(content["prompt"])
except EOFError:
# turn EOFError into EOF character
raw_data = '\x04'
except KeyboardInterrupt:
sys.stdout.write('\n')
return
finally:
# restore SIGINT handler
signal.signal(signal.SIGINT, real_handler)
# only send stdin reply if there *was not* another request
# or execution finished while we were reading.
if not (self.client.stdin_channel.msg_ready() or
self.client.shell_channel.msg_ready()):
self.client.input(raw_data)