# -*- coding: utf-8 -*-
r"""
This module exposes the `ubelt.cmd` command, which provides a simple means for
interacting with the commandline. While this does use `subprocess.Popen` under
the hood, the key draw of `ubelt.cmd` is that you can capture stdout/stderr in
your program while simultaneously printing it to the terminal in real time.
Example:
>>> import ubelt as ub
>>> # Running with verbose=1 will write to stdout in real time
>>> info = ub.cmd('echo "write your command naturally"', verbose=1)
write your command naturally
>>> # Unless `detatch=True`, `cmd` always returns an info dict.
>>> print('info = ' + ub.repr2(info))
info = {
'command': 'echo "write your command naturally"',
'cwd': None,
'err': '',
'out': 'write your command naturally\n',
'proc': <subprocess.Popen object at ...>,
'ret': 0,
}
"""
from __future__ import absolute_import, division, print_function, unicode_literals
import sys
import six
import warnings
POSIX = 'posix' in sys.builtin_module_names
if POSIX:
import select
else: # nocover
select = NotImplemented
__all__ = ['cmd']
# def _run_process(proc):
# """ helper for cmd """
# while True:
# # returns None while subprocess is running
# retcode = proc.poll()
# line = proc.stdout.readline()
# yield line
# if retcode is not None:
# # The program has a return code, so its done executing.
# # Grab any remaining data in stdout
# for line in proc.stdout.readlines():
# yield line
# raise StopIteration('process finished')
def _textio_iterlines(stream):
"""
Iterates over lines in a TextIO stream until an EOF is encountered.
This is the iterator version of stream.readlines()
"""
line = stream.readline()
while line != '':
yield line
line = stream.readline()
def _proc_async_iter_stream(proc, stream, buffersize=1):
"""
Reads output from a process in a separate thread
"""
from six.moves import queue
from threading import Thread
def enqueue_output(proc, stream, stream_queue):
while proc.poll() is None:
line = stream.readline()
# print('ENQUEUE LIVE {!r} {!r}'.format(stream, line))
stream_queue.put(line)
for line in _textio_iterlines(stream):
# print('ENQUEUE FINAL {!r} {!r}'.format(stream, line))
stream_queue.put(line)
# print("STREAM IS DONE {!r}".format(stream))
stream_queue.put(None) # signal that the stream is finished
# stream.close()
stream_queue = queue.Queue(maxsize=buffersize)
_thread = Thread(target=enqueue_output, args=(proc, stream, stream_queue))
_thread.daemon = True # thread dies with the program
_thread.start()
return stream_queue
def _proc_iteroutput_thread(proc):
"""
Iterates over output from a process line by line
Note:
WARNING. Current implementation might have bugs with other threads.
This behavior was seen when using earlier versions of tqdm. I'm not
sure if this was our bug or tqdm's. Newer versions of tqdm fix this,
but I cannot guarantee that there isn't an issue on our end.
Yields:
Tuple[str, str]: oline, eline: stdout and stderr line
References:
https://stackoverflow.com/questions/375427/non-blocking-read-subproc
"""
from six.moves import queue
# Create threads that read stdout / stderr and queue up the output
stdout_queue = _proc_async_iter_stream(proc, proc.stdout)
stderr_queue = _proc_async_iter_stream(proc, proc.stderr)
stdout_live = True
stderr_live = True
# read from the output asynchronously until
while stdout_live or stderr_live:
if stdout_live: # pragma: nobranch
try:
oline = stdout_queue.get_nowait()
stdout_live = oline is not None
except queue.Empty:
oline = None
if stderr_live:
try:
eline = stderr_queue.get_nowait()
stderr_live = eline is not None
except queue.Empty:
eline = None
if oline is not None or eline is not None:
yield oline, eline
def _proc_iteroutput_select(proc):
"""
Iterates over output from a process line by line
UNIX only. Use `_proc_iteroutput_thread` instead for a cross platform
solution based on threads.
Yields:
Tuple[str, str]: oline, eline: stdout and stderr line
"""
from six.moves import zip_longest
# Read output while the external program is running
while proc.poll() is None:
reads = [proc.stdout.fileno(), proc.stderr.fileno()]
ret = select.select(reads, [], [])
oline = eline = None
for fd in ret[0]:
if fd == proc.stdout.fileno():
oline = proc.stdout.readline()
if fd == proc.stderr.fileno():
eline = proc.stderr.readline()
yield oline, eline
# Grab any remaining data in stdout and stderr after the process finishes
oline_iter = _textio_iterlines(proc.stdout)
eline_iter = _textio_iterlines(proc.stderr)
for oline, eline in zip_longest(oline_iter, eline_iter):
yield oline, eline
def _tee_output(make_proc, stdout=None, stderr=None, backend='auto'):
"""
Simultaneously reports and captures stdout and stderr from a process
subprocess must be created using (stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
"""
logged_out = []
logged_err = []
if backend == 'auto':
# backend = 'select' if POSIX else 'thread'
backend = 'thread'
if backend == 'select':
if not POSIX: # nocover
raise NotImplementedError('select is only available on posix')
# the select-based version is stable, but slow
_proc_iteroutput = _proc_iteroutput_select
elif backend == 'thread':
# the thread version is fast, but might run into issues.
_proc_iteroutput = _proc_iteroutput_thread
else:
raise ValueError('backend must be select, thread, or auto')
proc = make_proc()
for oline, eline in _proc_iteroutput(proc):
if oline:
if stdout: # pragma: nobranch
stdout.write(oline)
stdout.flush()
logged_out.append(oline)
if eline:
if stderr: # pragma: nobranch
stderr.write(eline)
stderr.flush()
logged_err.append(eline)
return proc, logged_out, logged_err
[docs]def cmd(command, shell=False, detach=False, verbose=0, tee=None, cwd=None,
env=None, tee_backend='auto', verbout=None, **kwargs):
"""
Executes a command in a subprocess.
The advantage of this wrapper around subprocess is that
(1) you control if the subprocess prints to stdout,
(2) the text written to stdout and stderr is returned for parsing,
(3) cross platform behavior that lets you specify the command as a string
or tuple regardless of whether or not shell=True.
(4) ability to detach, return the process object and allow the process to
run in the background (eventually we may return a Future object instead).
Args:
command (str or Sequence): bash-like command string or tuple of
executable and args
shell (bool): if True, process is run in shell, defaults to False.
detach (bool): if True, process is detached and run in background,
defaults to False.
verbose (int): verbosity mode. Can be 0, 1, 2, or 3. Defaults to 0.
tee (bool, optional): if True, simultaneously writes to stdout while
capturing output from the command. If not specified, defaults to
True if verbose > 0. If detech is True, then this argument is
ignored.
cwd (PathLike, optional): path to run command
env (str, optional): environment passed to Popen
tee_backend (str, optional): backend for tee output.
Valid choices are: "auto", "select" (POSIX only), and "thread".
**kwargs: only used to support deprecated arguments
Returns:
dict: info - information about command status.
if detach is False `info` contains captured standard out,
standard error, and the return code
if detach is False `info` contains a reference to the process.
Notes:
Inputs can either be text or tuple based. On UNIX we ensure conversion
to text if shell=True, and to tuple if shell=False. On windows, the
input is always text based. See [3] for a potential cross-platform
shlex solution for windows.
CommandLine:
python -m ubelt.util_cmd cmd
python -c "import ubelt as ub; ub.cmd('ping localhost -c 2', verbose=2)"
References:
[1] https://stackoverflow.com/questions/11495783/redirect-subprocess-stderr-to-stdout
[2] https://stackoverflow.com/questions/7729336/how-can-i-print-and-display-subprocess-stdout-and-stderr-output-without-distorti
[3] https://stackoverflow.com/questions/33560364/python-windows-parsing-command-lines-with-shlex
Example:
>>> info = cmd(('echo', 'simple cmdline interface'), verbose=1)
simple cmdline interface
>>> assert info['ret'] == 0
>>> assert info['out'].strip() == 'simple cmdline interface'
>>> assert info['err'].strip() == ''
Doctest:
>>> info = cmd('echo str noshell', verbose=0)
>>> assert info['out'].strip() == 'str noshell'
Doctest:
>>> # windows echo will output extra single quotes
>>> info = cmd(('echo', 'tuple noshell'), verbose=0)
>>> assert info['out'].strip().strip("'") == 'tuple noshell'
Doctest:
>>> # Note this command is formatted to work on win32 and unix
>>> info = cmd('echo str&&echo shell', verbose=0, shell=True)
>>> assert info['out'].strip() == 'str' + chr(10) + 'shell'
Doctest:
>>> info = cmd(('echo', 'tuple shell'), verbose=0, shell=True)
>>> assert info['out'].strip().strip("'") == 'tuple shell'
Doctest:
>>> import ubelt as ub
>>> from os.path import join, exists
>>> fpath1 = join(ub.get_app_cache_dir('ubelt'), 'cmdout1.txt')
>>> fpath2 = join(ub.get_app_cache_dir('ubelt'), 'cmdout2.txt')
>>> ub.delete(fpath1)
>>> ub.delete(fpath2)
>>> info1 = ub.cmd(('touch', fpath1), detach=True)
>>> info2 = ub.cmd('echo writing2 > ' + fpath2, shell=True, detach=True)
>>> while not exists(fpath1):
... pass
>>> while not exists(fpath2):
... pass
>>> assert ub.readfrom(fpath1) == ''
>>> assert ub.readfrom(fpath2).strip() == 'writing2'
>>> info1['proc'].wait()
>>> info2['proc'].wait()
"""
if kwargs: # nocover
if 'verbout' in kwargs:
warnings.warn(
'`verbout` is deprecated and will be removed. '
'Use `tee` instead', DeprecationWarning)
tee = kwargs.pop('verbout')
if 'detatch' in kwargs:
warnings.warn(
'`detatch` is deprecated (misspelled) and will be removed. '
'Use `detach` instead', DeprecationWarning)
detach = kwargs.pop('detatch')
if kwargs:
raise ValueError('Unknown kwargs: {}'.format(list(kwargs.keys)))
# Determine if command is specified as text or a tuple
if isinstance(command, six.string_types):
command_text = command
command_tup = None
else:
import pipes
command_tup = command
command_text = ' '.join(list(map(pipes.quote, command_tup)))
if shell or sys.platform.startswith('win32'):
# When shell=True, args is sent to the shell (e.g. bin/sh) as text
args = command_text
else:
# When shell=False, args is a list of executable and arguments
if command_tup is None:
# parse this out of the string
# NOTE: perhaps use the solution from [3] here?
import shlex
command_tup = shlex.split(command_text)
# command_tup = shlex.split(command_text, posix=not WIN32)
args = command_tup
if tee is None:
tee = verbose > 0
if verbose > 1:
import os
import platform
import getpass
from ubelt import util_path
if verbose > 2:
try:
print('┌─── START CMD ───')
except Exception: # nocover
print('+=== START CMD ===')
cwd_ = os.getcwd() if cwd is None else cwd
compname = platform.node()
username = getpass.getuser()
cwd_ = util_path.compressuser(cwd_)
ps1 = '[ubelt.cmd] {}@{}:{}$ '.format(username, compname, cwd_)
print(ps1 + command_text)
# Create a new process to execute the command
def make_proc():
# delay the creation of the process until we validate all args
import subprocess
proc = subprocess.Popen(args, stdout=subprocess.PIPE,
stderr=subprocess.PIPE, shell=shell,
universal_newlines=True, cwd=cwd, env=env)
return proc
if detach:
info = {'proc': make_proc(), 'command': command_text}
if verbose > 0: # nocover
print('...detaching')
else:
if tee:
# we need to tee output and start threads if tee is False?
stdout, stderr = sys.stdout, sys.stderr
proc, logged_out, logged_err = _tee_output(make_proc, stdout, stderr,
backend=tee_backend)
try:
out = ''.join(logged_out)
except UnicodeDecodeError: # nocover
out = '\n'.join(_.decode('utf-8') for _ in logged_out)
try:
err = ''.join(logged_err)
except UnicodeDecodeError: # nocover
err = '\n'.join(_.decode('utf-8') for _ in logged_err)
(out_, err_) = proc.communicate()
else:
proc = make_proc()
(out, err) = proc.communicate()
# calling wait means that the process will terminate and it is safe to
# return a reference to the process object.
ret = proc.wait()
info = {
'out': out,
'err': err,
'ret': ret,
'proc': proc,
'cwd': cwd,
'command': command_text
}
if verbose > 2:
# https://en.wikipedia.org/wiki/Box-drawing_character
try:
print('└─── END CMD ───')
except Exception: # nocover
print('L___ END CMD ___')
return info