##// END OF EJS Templates
Actually install current IPython on RDT
Actually install current IPython on RDT

File last commit:

r28025:73fd29a1
r28079:1d72045a
Show More
script.py
362 lines | 11.9 KiB | text/x-python | PythonLexer
"""Magic functions for running cells in various scripts."""
# Copyright (c) IPython Development Team.
# Distributed under the terms of the Modified BSD License.
import asyncio
import atexit
import errno
import os
import signal
import sys
import time
from subprocess import CalledProcessError
from threading import Thread
from traitlets import Any, Dict, List, default
from IPython.core import magic_arguments
from IPython.core.async_helpers import _AsyncIOProxy
from IPython.core.magic import Magics, cell_magic, line_magic, magics_class
from IPython.utils.process import arg_split
#-----------------------------------------------------------------------------
# Magic implementation classes
#-----------------------------------------------------------------------------
def script_args(f):
"""single decorator for adding script args"""
args = [
magic_arguments.argument(
'--out', type=str,
help="""The variable in which to store stdout from the script.
If the script is backgrounded, this will be the stdout *pipe*,
instead of the stderr text itself and will not be auto closed.
"""
),
magic_arguments.argument(
'--err', type=str,
help="""The variable in which to store stderr from the script.
If the script is backgrounded, this will be the stderr *pipe*,
instead of the stderr text itself and will not be autoclosed.
"""
),
magic_arguments.argument(
'--bg', action="store_true",
help="""Whether to run the script in the background.
If given, the only way to see the output of the command is
with --out/err.
"""
),
magic_arguments.argument(
'--proc', type=str,
help="""The variable in which to store Popen instance.
This is used only when --bg option is given.
"""
),
magic_arguments.argument(
'--no-raise-error', action="store_false", dest='raise_error',
help="""Whether you should raise an error message in addition to
a stream on stderr if you get a nonzero exit code.
""",
),
]
for arg in args:
f = arg(f)
return f
@magics_class
class ScriptMagics(Magics):
"""Magics for talking to scripts
This defines a base `%%script` cell magic for running a cell
with a program in a subprocess, and registers a few top-level
magics that call %%script with common interpreters.
"""
event_loop = Any(
help="""
The event loop on which to run subprocesses
Not the main event loop,
because we want to be able to make blocking calls
and have certain requirements we don't want to impose on the main loop.
"""
)
script_magics = List(
help="""Extra script cell magics to define
This generates simple wrappers of `%%script foo` as `%%foo`.
If you want to add script magics that aren't on your path,
specify them in script_paths
""",
).tag(config=True)
@default('script_magics')
def _script_magics_default(self):
"""default to a common list of programs"""
defaults = [
'sh',
'bash',
'perl',
'ruby',
'python',
'python2',
'python3',
'pypy',
]
if os.name == 'nt':
defaults.extend([
'cmd',
])
return defaults
script_paths = Dict(
help="""Dict mapping short 'ruby' names to full paths, such as '/opt/secret/bin/ruby'
Only necessary for items in script_magics where the default path will not
find the right interpreter.
"""
).tag(config=True)
def __init__(self, shell=None):
super(ScriptMagics, self).__init__(shell=shell)
self._generate_script_magics()
self.bg_processes = []
atexit.register(self.kill_bg_processes)
def __del__(self):
self.kill_bg_processes()
def _generate_script_magics(self):
cell_magics = self.magics['cell']
for name in self.script_magics:
cell_magics[name] = self._make_script_magic(name)
def _make_script_magic(self, name):
"""make a named magic, that calls %%script with a particular program"""
# expand to explicit path if necessary:
script = self.script_paths.get(name, name)
@magic_arguments.magic_arguments()
@script_args
def named_script_magic(line, cell):
# if line, add it as cl-flags
if line:
line = "%s %s" % (script, line)
else:
line = script
return self.shebang(line, cell)
# write a basic docstring:
named_script_magic.__doc__ = \
"""%%{name} script magic
Run cells with {script} in a subprocess.
This is a shortcut for `%%script {script}`
""".format(**locals())
return named_script_magic
@magic_arguments.magic_arguments()
@script_args
@cell_magic("script")
def shebang(self, line, cell):
"""Run a cell via a shell command
The `%%script` line is like the #! line of script,
specifying a program (bash, perl, ruby, etc.) with which to run.
The rest of the cell is run by that program.
Examples
--------
::
In [1]: %%script bash
...: for i in 1 2 3; do
...: echo $i
...: done
1
2
3
"""
# Create the event loop in which to run script magics
# this operates on a background thread
if self.event_loop is None:
if sys.platform == "win32":
# don't override the current policy,
# just create an event loop
event_loop = asyncio.WindowsProactorEventLoopPolicy().new_event_loop()
else:
event_loop = asyncio.new_event_loop()
self.event_loop = event_loop
# start the loop in a background thread
asyncio_thread = Thread(target=event_loop.run_forever, daemon=True)
asyncio_thread.start()
else:
event_loop = self.event_loop
def in_thread(coro):
"""Call a coroutine on the asyncio thread"""
return asyncio.run_coroutine_threadsafe(coro, event_loop).result()
async def _handle_stream(stream, stream_arg, file_object):
while True:
line = (await stream.readline()).decode("utf8", errors="replace")
if not line:
break
if stream_arg:
self.shell.user_ns[stream_arg] = line
else:
file_object.write(line)
file_object.flush()
async def _stream_communicate(process, cell):
process.stdin.write(cell)
process.stdin.close()
stdout_task = asyncio.create_task(
_handle_stream(process.stdout, args.out, sys.stdout)
)
stderr_task = asyncio.create_task(
_handle_stream(process.stderr, args.err, sys.stderr)
)
await asyncio.wait([stdout_task, stderr_task])
await process.wait()
argv = arg_split(line, posix=not sys.platform.startswith("win"))
args, cmd = self.shebang.parser.parse_known_args(argv)
try:
p = in_thread(
asyncio.create_subprocess_exec(
*cmd,
stdout=asyncio.subprocess.PIPE,
stderr=asyncio.subprocess.PIPE,
stdin=asyncio.subprocess.PIPE,
)
)
except OSError as e:
if e.errno == errno.ENOENT:
print("Couldn't find program: %r" % cmd[0])
return
else:
raise
if not cell.endswith('\n'):
cell += '\n'
cell = cell.encode('utf8', 'replace')
if args.bg:
self.bg_processes.append(p)
self._gc_bg_processes()
to_close = []
if args.out:
self.shell.user_ns[args.out] = _AsyncIOProxy(p.stdout, event_loop)
else:
to_close.append(p.stdout)
if args.err:
self.shell.user_ns[args.err] = _AsyncIOProxy(p.stderr, event_loop)
else:
to_close.append(p.stderr)
event_loop.call_soon_threadsafe(
lambda: asyncio.Task(self._run_script(p, cell, to_close))
)
if args.proc:
proc_proxy = _AsyncIOProxy(p, event_loop)
proc_proxy.stdout = _AsyncIOProxy(p.stdout, event_loop)
proc_proxy.stderr = _AsyncIOProxy(p.stderr, event_loop)
self.shell.user_ns[args.proc] = proc_proxy
return
try:
in_thread(_stream_communicate(p, cell))
except KeyboardInterrupt:
try:
p.send_signal(signal.SIGINT)
in_thread(asyncio.wait_for(p.wait(), timeout=0.1))
if p.returncode is not None:
print("Process is interrupted.")
return
p.terminate()
in_thread(asyncio.wait_for(p.wait(), timeout=0.1))
if p.returncode is not None:
print("Process is terminated.")
return
p.kill()
print("Process is killed.")
except OSError:
pass
except Exception as e:
print("Error while terminating subprocess (pid=%i): %s" % (p.pid, e))
return
if args.raise_error and p.returncode != 0:
# If we get here and p.returncode is still None, we must have
# killed it but not yet seen its return code. We don't wait for it,
# in case it's stuck in uninterruptible sleep. -9 = SIGKILL
rc = p.returncode or -9
raise CalledProcessError(rc, cell)
shebang.__skip_doctest__ = os.name != "posix"
async def _run_script(self, p, cell, to_close):
"""callback for running the script in the background"""
p.stdin.write(cell)
await p.stdin.drain()
p.stdin.close()
await p.stdin.wait_closed()
await p.wait()
# asyncio read pipes have no close
# but we should drain the data anyway
for s in to_close:
await s.read()
self._gc_bg_processes()
@line_magic("killbgscripts")
def killbgscripts(self, _nouse_=''):
"""Kill all BG processes started by %%script and its family."""
self.kill_bg_processes()
print("All background processes were killed.")
def kill_bg_processes(self):
"""Kill all BG processes which are still running."""
if not self.bg_processes:
return
for p in self.bg_processes:
if p.returncode is None:
try:
p.send_signal(signal.SIGINT)
except:
pass
time.sleep(0.1)
self._gc_bg_processes()
if not self.bg_processes:
return
for p in self.bg_processes:
if p.returncode is None:
try:
p.terminate()
except:
pass
time.sleep(0.1)
self._gc_bg_processes()
if not self.bg_processes:
return
for p in self.bg_processes:
if p.returncode is None:
try:
p.kill()
except:
pass
self._gc_bg_processes()
def _gc_bg_processes(self):
self.bg_processes = [p for p in self.bg_processes if p.returncode is None]