Related
I will execute two methods get and post at the same time in diffrent threads, the first method get will last for a long time(100 seconds), and the second request post will repeat every 5 seconds. Here get request will print a lot as follow
import time
def get():
for i in range(100):
print(i)
print("\n")
time.sleep(1)
What post need to do is to collect all the print content from get and append to a txt every time it executes(if file exists, add new contents to txt). Here is the pseudocode.
def post(request):
print_from_get = sys.stdout
with open("output.txt", "w") as text_file:
text_file.write(print_from_get)
My question is whether we can collect the print from get, if possible, how should I do it?
I present at the end a way for doing what is requested but I do not recommend using bare prints for this. There are better tools, and if you still want to stick with print, you can use the file keyword to specify where the output should go.
import time
import sys
def get(out_stream=sys.stdout):
for i in range(100):
print(i, file=out_stream)
print("\n")
time.sleep(1)
you can pass a file object opened with open as the argument, and the output will go to that file. Alternatively, you can use a io.StringIO as #barmar suggested, and write the contents to a file once get finishes.
All other options mess with sys.stdout, that is the default file object that print uses (it is the default value of the file keyword argument). This affects everything that uses sys.stdout, which can be more than all the print statements that get executed.
If you need to redirect bare print statements (not using print's file keyword), you must replace sys.stdout. The most obvious replacement would be to use an output file object:
from threading import Thread
import time
import sys
def get():
for i in range(100):
print(i)
time.sleep(1)
if __name__ == "__main__":
old_stdout = sys.stdout
with open("output.txt", "a") as text_fil:
sys.stdout = text_fil
get_thread = Thread(None, get)
get_thread.start()
get_thread.join()
sys.stdout = old_stdout
If you need to have one writing thread and a reading thread, exactly as the question states, you can use Queues, but a simpler approach uses pipes (I added a dummy thread (postthread) that calls post to make it similar to OP's use):
from threading import Thread
import time
import sys
import os
def get():
for i in range(100):
print(i)
time.sleep(1)
def post(read_pipe):
with open("output.txt", "ab") as text_fil: # os.read yields bytes
try:
data = os.read(read_pipe, 65535) # arbitrary (but large) number
text_fil.write(data)
except Exception as e:
return True # the read descriptor was closed: quit
return len(data) == 0 # the write descriptor was closed: quit
def postthread(read_pipe):
for _ in range(21):
time.sleep(5)
if post(read_pipe):
return
if __name__ == "__main__":
old_stdout = sys.stdout
r_fd, w_fd = os.pipe()
with os.fdopen(w_fd, 'wt') as write_pipe: # write pipe is a file object
read_pipe = r_fd
sys.stdout = write_pipe
get_thread = Thread(None, get)
post_thread = Thread(None, postthread, args=(read_pipe, ))
post_thread.start()
get_thread.start()
get_thread.join()
sys.stdout = old_stdout
# closing the write pipe (and its file descriptor) causes read to see EOF.
post_thread.join()
os.close(r_fd)
sys.stdout = old_stdout
How do I redirect stdout to an arbitrary file in Python?
When a long-running Python script (e.g, web application) is started from within the ssh session and backgounded, and the ssh session is closed, the application will raise IOError and fail the moment it tries to write to stdout. I needed to find a way to make the application and modules output to a file rather than stdout to prevent failure due to IOError. Currently, I employ nohup to redirect output to a file, and that gets the job done, but I was wondering if there was a way to do it without using nohup, out of curiosity.
I have already tried sys.stdout = open('somefile', 'w'), but this does not seem to prevent some external modules from still outputting to terminal (or maybe the sys.stdout = ... line did not fire at all). I know it should work from simpler scripts I've tested on, but I also didn't have time yet to test on a web application yet.
If you want to do the redirection within the Python script, setting sys.stdout to a file object does the trick:
# for python3
import sys
with open('file', 'w') as sys.stdout:
print('test')
A far more common method is to use shell redirection when executing (same on Windows and Linux):
$ python3 foo.py > file
There is contextlib.redirect_stdout() function in Python 3.4+:
from contextlib import redirect_stdout
with open('help.txt', 'w') as f:
with redirect_stdout(f):
print('it now prints to `help.text`')
It is similar to:
import sys
from contextlib import contextmanager
#contextmanager
def redirect_stdout(new_target):
old_target, sys.stdout = sys.stdout, new_target # replace sys.stdout
try:
yield new_target # run some code with the replaced stdout
finally:
sys.stdout = old_target # restore to the previous value
that can be used on earlier Python versions. The latter version is not reusable. It can be made one if desired.
It doesn't redirect the stdout at the file descriptors level e.g.:
import os
from contextlib import redirect_stdout
stdout_fd = sys.stdout.fileno()
with open('output.txt', 'w') as f, redirect_stdout(f):
print('redirected to a file')
os.write(stdout_fd, b'not redirected')
os.system('echo this also is not redirected')
b'not redirected' and 'echo this also is not redirected' are not redirected to the output.txt file.
To redirect at the file descriptor level, os.dup2() could be used:
import os
import sys
from contextlib import contextmanager
def fileno(file_or_fd):
fd = getattr(file_or_fd, 'fileno', lambda: file_or_fd)()
if not isinstance(fd, int):
raise ValueError("Expected a file (`.fileno()`) or a file descriptor")
return fd
#contextmanager
def stdout_redirected(to=os.devnull, stdout=None):
if stdout is None:
stdout = sys.stdout
stdout_fd = fileno(stdout)
# copy stdout_fd before it is overwritten
#NOTE: `copied` is inheritable on Windows when duplicating a standard stream
with os.fdopen(os.dup(stdout_fd), 'wb') as copied:
stdout.flush() # flush library buffers that dup2 knows nothing about
try:
os.dup2(fileno(to), stdout_fd) # $ exec >&to
except ValueError: # filename
with open(to, 'wb') as to_file:
os.dup2(to_file.fileno(), stdout_fd) # $ exec > to
try:
yield stdout # allow code to be run with the redirected stdout
finally:
# restore stdout to its previous value
#NOTE: dup2 makes stdout_fd inheritable unconditionally
stdout.flush()
os.dup2(copied.fileno(), stdout_fd) # $ exec >&copied
The same example works now if stdout_redirected() is used instead of redirect_stdout():
import os
import sys
stdout_fd = sys.stdout.fileno()
with open('output.txt', 'w') as f, stdout_redirected(f):
print('redirected to a file')
os.write(stdout_fd, b'it is redirected now\n')
os.system('echo this is also redirected')
print('this is goes back to stdout')
The output that previously was printed on stdout now goes to output.txt as long as stdout_redirected() context manager is active.
Note: stdout.flush() does not flush
C stdio buffers on Python 3 where I/O is implemented directly on read()/write() system calls. To flush all open C stdio output streams, you could call libc.fflush(None) explicitly if some C extension uses stdio-based I/O:
try:
import ctypes
from ctypes.util import find_library
except ImportError:
libc = None
else:
try:
libc = ctypes.cdll.msvcrt # Windows
except OSError:
libc = ctypes.cdll.LoadLibrary(find_library('c'))
def flush(stream):
try:
libc.fflush(None)
stream.flush()
except (AttributeError, ValueError, IOError):
pass # unsupported
You could use stdout parameter to redirect other streams, not only sys.stdout e.g., to merge sys.stderr and sys.stdout:
def merged_stderr_stdout(): # $ exec 2>&1
return stdout_redirected(to=sys.stdout, stdout=sys.stderr)
Example:
from __future__ import print_function
import sys
with merged_stderr_stdout():
print('this is printed on stdout')
print('this is also printed on stdout', file=sys.stderr)
Note: stdout_redirected() mixes buffered I/O (sys.stdout usually) and unbuffered I/O (operations on file descriptors directly). Beware, there could be buffering issues.
To answer, your edit: you could use python-daemon to daemonize your script and use logging module (as #erikb85 suggested) instead of print statements and merely redirecting stdout for your long-running Python script that you run using nohup now.
you can try this too much better
import sys
class Logger(object):
def __init__(self, filename="Default.log"):
self.terminal = sys.stdout
self.log = open(filename, "a")
def write(self, message):
self.terminal.write(message)
self.log.write(message)
sys.stdout = Logger("yourlogfilename.txt")
print "Hello world !" # this is should be saved in yourlogfilename.txt
The other answers didn't cover the case where you want forked processes to share your new stdout.
To do that:
from os import open, close, dup, O_WRONLY
old = dup(1)
close(1)
open("file", O_WRONLY) # should open on 1
..... do stuff and then restore
close(1)
dup(old) # should dup to 1
close(old) # get rid of left overs
Quoted from PEP 343 -- The "with" Statement (added import statement):
Redirect stdout temporarily:
import sys
from contextlib import contextmanager
#contextmanager
def stdout_redirected(new_stdout):
save_stdout = sys.stdout
sys.stdout = new_stdout
try:
yield None
finally:
sys.stdout = save_stdout
Used as follows:
with open(filename, "w") as f:
with stdout_redirected(f):
print "Hello world"
This isn't thread-safe, of course, but neither is doing this same dance manually. In single-threaded programs (for example in scripts) it is a popular way of doing things.
import sys
sys.stdout = open('stdout.txt', 'w')
Here is a variation of Yuda Prawira answer:
implement flush() and all the file attributes
write it as a contextmanager
capture stderr also
.
import contextlib, sys
#contextlib.contextmanager
def log_print(file):
# capture all outputs to a log file while still printing it
class Logger:
def __init__(self, file):
self.terminal = sys.stdout
self.log = file
def write(self, message):
self.terminal.write(message)
self.log.write(message)
def __getattr__(self, attr):
return getattr(self.terminal, attr)
logger = Logger(file)
_stdout = sys.stdout
_stderr = sys.stderr
sys.stdout = logger
sys.stderr = logger
try:
yield logger.log
finally:
sys.stdout = _stdout
sys.stderr = _stderr
with log_print(open('mylogfile.log', 'w')):
print('hello world')
print('hello world on stderr', file=sys.stderr)
# you can capture the output to a string with:
# with log_print(io.StringIO()) as log:
# ....
# print('[captured output]', log.getvalue())
You need a terminal multiplexer like either tmux or GNU screen
I'm surprised that a small comment by Ryan Amos' to the original question is the only mention of a solution far preferable to all the others on offer, no matter how clever the python trickery may be and how many upvotes they've received. Further to Ryan's comment, tmux is a nice alternative to GNU screen.
But the principle is the same: if you ever find yourself wanting to leave a terminal job running while you log-out, head to the cafe for a sandwich, pop to the bathroom, go home (etc) and then later, reconnect to your terminal session from anywhere or any computer as though you'd never been away, terminal multiplexers are the answer. Think of them as VNC or remote desktop for terminal sessions. Anything else is a workaround. As a bonus, when the boss and/or partner comes in and you inadvertently ctrl-w / cmd-w your terminal window instead of your browser window with its dodgy content, you won't have lost the last 18 hours-worth of processing!
Based on this answer: https://stackoverflow.com/a/5916874/1060344, here is another way I figured out which I use in one of my projects. For whatever you replace sys.stderr or sys.stdout with, you have to make sure that the replacement complies with file interface, especially if this is something you are doing because stderr/stdout are used in some other library that is not under your control. That library may be using other methods of file object.
Check out this way where I still let everything go do stderr/stdout (or any file for that matter) and also send the message to a log file using Python's logging facility (but you can really do anything with this):
class FileToLogInterface(file):
'''
Interface to make sure that everytime anything is written to stderr, it is
also forwarded to a file.
'''
def __init__(self, *args, **kwargs):
if 'cfg' not in kwargs:
raise TypeError('argument cfg is required.')
else:
if not isinstance(kwargs['cfg'], config.Config):
raise TypeError(
'argument cfg should be a valid '
'PostSegmentation configuration object i.e. '
'postsegmentation.config.Config')
self._cfg = kwargs['cfg']
kwargs.pop('cfg')
self._logger = logging.getlogger('access_log')
super(FileToLogInterface, self).__init__(*args, **kwargs)
def write(self, msg):
super(FileToLogInterface, self).write(msg)
self._logger.info(msg)
Programs written in other languages (e.g. C) have to do special magic (called double-forking) expressly to detach from the terminal (and to prevent zombie processes). So, I think the best solution is to emulate them.
A plus of re-executing your program is, you can choose redirections on the command-line, e.g. /usr/bin/python mycoolscript.py 2>&1 1>/dev/null
See this post for more info: What is the reason for performing a double fork when creating a daemon?
I know this question is answered (using python abc.py > output.log 2>&1 ), but I still have to say:
When writing your program, don't write to stdout. Always use logging to output whatever you want. That would give you a lot of freedom in the future when you want to redirect, filter, rotate the output files.
As mentioned by #jfs, most solutions will not properly handle some types of stdout output such as that from C extensions. There is a module that takes care of all this on PyPI called wurlitzer. You just need its sys_pipes context manager. It's as easy as using:
from contextlib import redirect_stdout
import os
from wurlitzer import sys_pipes
log = open("test.log", "a")
with redirect_stdout(log), sys_pipes():
print("print statement")
os.system("echo echo call")
Based on previous answers on this post I wrote this class for myself as a more compact and flexible way of redirecting the output of pieces of code - here just to a list - and ensure that the output is normalized afterwards.
class out_to_lt():
def __init__(self, lt):
if type(lt) == list:
self.lt = lt
else:
raise Exception("Need to pass a list")
def __enter__(self):
import sys
self._sys = sys
self._stdout = sys.stdout
sys.stdout = self
return self
def write(self,txt):
self.lt.append(txt)
def __exit__(self, type, value, traceback):
self._sys.stdout = self._stdout
Used as:
lt = []
with out_to_lt(lt) as o:
print("Test 123\n\n")
print(help(str))
Updating. Just found a scenario where I had to add two extra methods, but was easy to adapt:
class out_to_lt():
...
def isatty(self):
return True #True: You're running in a real terminal, False:You're being piped, redirected, cron
def flush(self):
pass
There are other versions using context but nothing this simple. I actually just googled to double check it would work and was surprised not to see it, so for other people looking for a quick solution that is safe and directed at only the code within the context block, here it is:
import sys
with open('test_file', 'w') as sys.stdout:
print('Testing 1 2 3')
Tested like so:
$ cat redirect_stdout.py
import sys
with open('test_file', 'w') as sys.stdout:
print('Testing 1 2 3')
$ python redirect_stdout.py
$ cat test_file
Testing 1 2 3
I'm trying to make a python script that takes input from stdin, displays GUI in terminal using curses and then when user finishes interaction outputs the result to the stdout. Good example of this behaviour is selecta but it's written in ruby.
I can't make curses display anything. This is minimal (it only displays one character and waits for one character) example of what I tried so far:
import os, sys
import curses
c = None
old_out = sys.__stdout__
old_in = sys.__stdin__
old_err = sys.__stderr__
sys.__stdout__ = sys.stdout = open('/dev/tty', 'w')
sys.__stdin__ = sys.stdin = open('/dev/tty')
sys.__stderr__ = sys.stderr = open('/dev/tty')
def show_a(s):
global c
s.addch(ord('a'))
c = s.getch()
curses.wrapper(show_a)
sys.stdin.flush()
sys.stdout.flush()
sys.stderr.flush()
sys.stdin.close()
sys.stdout.close()
sys.stderr.close()
sys.__stdout__ = sys.stdout = old_out
sys.__stdin__ = sys.stdin = old_in
sys.__stderr__ = sys.stderr = old_err
print(c)
When I try to use echo $(python3 show_a.py) nothing is displayed but after pressing any key its number is displayed:
Is something like this even possible using curses, if so how to do this?
It doesn't work because the print statement is writing to the same standard output as curses.wrapper. You can either defer that print until after you have restored sys.stdout, or you could use the file= property something like this:
printf(s.getch(), file=old_out)
For the other (ordering) problem, it sounds as if you need to amend the code to do a refresh after the getch (to make curses display it), and depending on what version of curses, a flush of the standard output would then be helpful.
Further reading:
Temporarily Redirect stdout/stderr
So I am trying to write a decorator which will log the standard output, while print it as well. The whole point is to fork the output so that it will show in the console, as well as get logged. So this is what I have so far:
from time import time
import tempfile
import sys
import datetime
def printUsingTempFile(f):
def wrapper(*a, **ka):
with open('sysLog.txt', 'a') as logFile:
with tempfile.NamedTemporaryFile() as f:
sys.stdout = f
sys.stderr = f
retVal = f(*a, **ka)
f.flush(); f.seek(0); logFile.write('\n'.join(f.readlines()))
f.flush(); f.seek(0); sys.__stdout__.write('\n'.join(f.readlines()))
sys.stdout = sys.__stdout__
sys.stderr = sys.__stderr__
return retVal
return wrapper
if __name__ == '__main__':
#printUsingTempFile
def someFunc(abc='Hello!!!'):
'''
This is the docstring of the someFunc function.
'''
print abc
return 1
someFunc('Print something here')
I run it like so:
In [18]: !python utility.py
because if I run is by using the run function the stupid iPython window closes.
I am getting a new file called 'sysLog.txt' in the directory, but that is empty. And there is no output anywhere to be seen either. There is no error or anything. Just ... nothing! Getting a little frustrated here with this. Not sure how to debug this code :(
Edit:
I realized that I wasn't seeking twice so I updated the code. I tried the following code:
def printUsingTempFile1():
with open('sysLog.txt', 'a') as logFile:
with tempfile.NamedTemporaryFile() as f:
sys.stdout = f
sys.stderr = f
print 'This is something ...'
f.flush(); f.seek(0); logFile.write('\n'.join(f.readlines()))
f.flush(); f.seek(0); sys.__stdout__.write('\n'.join(f.readlines()))
sys.stdout = sys.__stdout__
sys.stderr = sys.__stderr__
And this function seems to be working ok.
Why are you using f as the name for the passed in function to the decorator as well as the name of the temporary file? I'm assuming that the call to f(*a, **ka) errors out and since you have redirected the error stream to the temp file, it gets closed without writing out anything and hence nothing on the console.
A tip for debugging these sort of situations is to start stripping pieces of code which doesn't work one by one and bringing it down to the bare minimum which works. And then again work your way up till it starts failing. :)
EDIT
I would also like to recommend running your code under a lint tool to catch issues like these. For e.g. the code posted below:
''' This is a test module '''
import tempfile
import sys
def print_tmp_file(arg):
''' Print out the things using temp file '''
def wrapper(*a, **ka):
''' Wrapper function '''
with open('sysLog.txt', 'a') as log_file:
with tempfile.NamedTemporaryFile() as arg:
sys.stdout = arg
sys.stderr = arg
ret_val = arg(*a, **ka)
arg.flush()
arg.seek(0)
log_file.write('\n'.join(arg.readlines()))
arg.flush()
arg.seek(0)
sys.__stdout__.write('\n'.join(arg.readlines()))
sys.stdout = sys.__stdout__
sys.stderr = sys.__stderr__
return ret_val
return wrapper
if __name__ == '__main__':
#print_tmp_file
def some_func(abc='Hello!!!'):
''' This is the docstring of the someFunc function. '''
print abc
return 1
some_func('Print something here')
Running pylint on the above code gives the following warning:
W: 6,19: Unused argument 'arg' (unused-argument)
which is a clear indication that something has gone wrong.
How do I redirect stdout to an arbitrary file in Python?
When a long-running Python script (e.g, web application) is started from within the ssh session and backgounded, and the ssh session is closed, the application will raise IOError and fail the moment it tries to write to stdout. I needed to find a way to make the application and modules output to a file rather than stdout to prevent failure due to IOError. Currently, I employ nohup to redirect output to a file, and that gets the job done, but I was wondering if there was a way to do it without using nohup, out of curiosity.
I have already tried sys.stdout = open('somefile', 'w'), but this does not seem to prevent some external modules from still outputting to terminal (or maybe the sys.stdout = ... line did not fire at all). I know it should work from simpler scripts I've tested on, but I also didn't have time yet to test on a web application yet.
If you want to do the redirection within the Python script, setting sys.stdout to a file object does the trick:
# for python3
import sys
with open('file', 'w') as sys.stdout:
print('test')
A far more common method is to use shell redirection when executing (same on Windows and Linux):
$ python3 foo.py > file
There is contextlib.redirect_stdout() function in Python 3.4+:
from contextlib import redirect_stdout
with open('help.txt', 'w') as f:
with redirect_stdout(f):
print('it now prints to `help.text`')
It is similar to:
import sys
from contextlib import contextmanager
#contextmanager
def redirect_stdout(new_target):
old_target, sys.stdout = sys.stdout, new_target # replace sys.stdout
try:
yield new_target # run some code with the replaced stdout
finally:
sys.stdout = old_target # restore to the previous value
that can be used on earlier Python versions. The latter version is not reusable. It can be made one if desired.
It doesn't redirect the stdout at the file descriptors level e.g.:
import os
from contextlib import redirect_stdout
stdout_fd = sys.stdout.fileno()
with open('output.txt', 'w') as f, redirect_stdout(f):
print('redirected to a file')
os.write(stdout_fd, b'not redirected')
os.system('echo this also is not redirected')
b'not redirected' and 'echo this also is not redirected' are not redirected to the output.txt file.
To redirect at the file descriptor level, os.dup2() could be used:
import os
import sys
from contextlib import contextmanager
def fileno(file_or_fd):
fd = getattr(file_or_fd, 'fileno', lambda: file_or_fd)()
if not isinstance(fd, int):
raise ValueError("Expected a file (`.fileno()`) or a file descriptor")
return fd
#contextmanager
def stdout_redirected(to=os.devnull, stdout=None):
if stdout is None:
stdout = sys.stdout
stdout_fd = fileno(stdout)
# copy stdout_fd before it is overwritten
#NOTE: `copied` is inheritable on Windows when duplicating a standard stream
with os.fdopen(os.dup(stdout_fd), 'wb') as copied:
stdout.flush() # flush library buffers that dup2 knows nothing about
try:
os.dup2(fileno(to), stdout_fd) # $ exec >&to
except ValueError: # filename
with open(to, 'wb') as to_file:
os.dup2(to_file.fileno(), stdout_fd) # $ exec > to
try:
yield stdout # allow code to be run with the redirected stdout
finally:
# restore stdout to its previous value
#NOTE: dup2 makes stdout_fd inheritable unconditionally
stdout.flush()
os.dup2(copied.fileno(), stdout_fd) # $ exec >&copied
The same example works now if stdout_redirected() is used instead of redirect_stdout():
import os
import sys
stdout_fd = sys.stdout.fileno()
with open('output.txt', 'w') as f, stdout_redirected(f):
print('redirected to a file')
os.write(stdout_fd, b'it is redirected now\n')
os.system('echo this is also redirected')
print('this is goes back to stdout')
The output that previously was printed on stdout now goes to output.txt as long as stdout_redirected() context manager is active.
Note: stdout.flush() does not flush
C stdio buffers on Python 3 where I/O is implemented directly on read()/write() system calls. To flush all open C stdio output streams, you could call libc.fflush(None) explicitly if some C extension uses stdio-based I/O:
try:
import ctypes
from ctypes.util import find_library
except ImportError:
libc = None
else:
try:
libc = ctypes.cdll.msvcrt # Windows
except OSError:
libc = ctypes.cdll.LoadLibrary(find_library('c'))
def flush(stream):
try:
libc.fflush(None)
stream.flush()
except (AttributeError, ValueError, IOError):
pass # unsupported
You could use stdout parameter to redirect other streams, not only sys.stdout e.g., to merge sys.stderr and sys.stdout:
def merged_stderr_stdout(): # $ exec 2>&1
return stdout_redirected(to=sys.stdout, stdout=sys.stderr)
Example:
from __future__ import print_function
import sys
with merged_stderr_stdout():
print('this is printed on stdout')
print('this is also printed on stdout', file=sys.stderr)
Note: stdout_redirected() mixes buffered I/O (sys.stdout usually) and unbuffered I/O (operations on file descriptors directly). Beware, there could be buffering issues.
To answer, your edit: you could use python-daemon to daemonize your script and use logging module (as #erikb85 suggested) instead of print statements and merely redirecting stdout for your long-running Python script that you run using nohup now.
you can try this too much better
import sys
class Logger(object):
def __init__(self, filename="Default.log"):
self.terminal = sys.stdout
self.log = open(filename, "a")
def write(self, message):
self.terminal.write(message)
self.log.write(message)
sys.stdout = Logger("yourlogfilename.txt")
print "Hello world !" # this is should be saved in yourlogfilename.txt
The other answers didn't cover the case where you want forked processes to share your new stdout.
To do that:
from os import open, close, dup, O_WRONLY
old = dup(1)
close(1)
open("file", O_WRONLY) # should open on 1
..... do stuff and then restore
close(1)
dup(old) # should dup to 1
close(old) # get rid of left overs
Quoted from PEP 343 -- The "with" Statement (added import statement):
Redirect stdout temporarily:
import sys
from contextlib import contextmanager
#contextmanager
def stdout_redirected(new_stdout):
save_stdout = sys.stdout
sys.stdout = new_stdout
try:
yield None
finally:
sys.stdout = save_stdout
Used as follows:
with open(filename, "w") as f:
with stdout_redirected(f):
print "Hello world"
This isn't thread-safe, of course, but neither is doing this same dance manually. In single-threaded programs (for example in scripts) it is a popular way of doing things.
import sys
sys.stdout = open('stdout.txt', 'w')
Here is a variation of Yuda Prawira answer:
implement flush() and all the file attributes
write it as a contextmanager
capture stderr also
.
import contextlib, sys
#contextlib.contextmanager
def log_print(file):
# capture all outputs to a log file while still printing it
class Logger:
def __init__(self, file):
self.terminal = sys.stdout
self.log = file
def write(self, message):
self.terminal.write(message)
self.log.write(message)
def __getattr__(self, attr):
return getattr(self.terminal, attr)
logger = Logger(file)
_stdout = sys.stdout
_stderr = sys.stderr
sys.stdout = logger
sys.stderr = logger
try:
yield logger.log
finally:
sys.stdout = _stdout
sys.stderr = _stderr
with log_print(open('mylogfile.log', 'w')):
print('hello world')
print('hello world on stderr', file=sys.stderr)
# you can capture the output to a string with:
# with log_print(io.StringIO()) as log:
# ....
# print('[captured output]', log.getvalue())
You need a terminal multiplexer like either tmux or GNU screen
I'm surprised that a small comment by Ryan Amos' to the original question is the only mention of a solution far preferable to all the others on offer, no matter how clever the python trickery may be and how many upvotes they've received. Further to Ryan's comment, tmux is a nice alternative to GNU screen.
But the principle is the same: if you ever find yourself wanting to leave a terminal job running while you log-out, head to the cafe for a sandwich, pop to the bathroom, go home (etc) and then later, reconnect to your terminal session from anywhere or any computer as though you'd never been away, terminal multiplexers are the answer. Think of them as VNC or remote desktop for terminal sessions. Anything else is a workaround. As a bonus, when the boss and/or partner comes in and you inadvertently ctrl-w / cmd-w your terminal window instead of your browser window with its dodgy content, you won't have lost the last 18 hours-worth of processing!
Based on this answer: https://stackoverflow.com/a/5916874/1060344, here is another way I figured out which I use in one of my projects. For whatever you replace sys.stderr or sys.stdout with, you have to make sure that the replacement complies with file interface, especially if this is something you are doing because stderr/stdout are used in some other library that is not under your control. That library may be using other methods of file object.
Check out this way where I still let everything go do stderr/stdout (or any file for that matter) and also send the message to a log file using Python's logging facility (but you can really do anything with this):
class FileToLogInterface(file):
'''
Interface to make sure that everytime anything is written to stderr, it is
also forwarded to a file.
'''
def __init__(self, *args, **kwargs):
if 'cfg' not in kwargs:
raise TypeError('argument cfg is required.')
else:
if not isinstance(kwargs['cfg'], config.Config):
raise TypeError(
'argument cfg should be a valid '
'PostSegmentation configuration object i.e. '
'postsegmentation.config.Config')
self._cfg = kwargs['cfg']
kwargs.pop('cfg')
self._logger = logging.getlogger('access_log')
super(FileToLogInterface, self).__init__(*args, **kwargs)
def write(self, msg):
super(FileToLogInterface, self).write(msg)
self._logger.info(msg)
Programs written in other languages (e.g. C) have to do special magic (called double-forking) expressly to detach from the terminal (and to prevent zombie processes). So, I think the best solution is to emulate them.
A plus of re-executing your program is, you can choose redirections on the command-line, e.g. /usr/bin/python mycoolscript.py 2>&1 1>/dev/null
See this post for more info: What is the reason for performing a double fork when creating a daemon?
I know this question is answered (using python abc.py > output.log 2>&1 ), but I still have to say:
When writing your program, don't write to stdout. Always use logging to output whatever you want. That would give you a lot of freedom in the future when you want to redirect, filter, rotate the output files.
As mentioned by #jfs, most solutions will not properly handle some types of stdout output such as that from C extensions. There is a module that takes care of all this on PyPI called wurlitzer. You just need its sys_pipes context manager. It's as easy as using:
from contextlib import redirect_stdout
import os
from wurlitzer import sys_pipes
log = open("test.log", "a")
with redirect_stdout(log), sys_pipes():
print("print statement")
os.system("echo echo call")
Based on previous answers on this post I wrote this class for myself as a more compact and flexible way of redirecting the output of pieces of code - here just to a list - and ensure that the output is normalized afterwards.
class out_to_lt():
def __init__(self, lt):
if type(lt) == list:
self.lt = lt
else:
raise Exception("Need to pass a list")
def __enter__(self):
import sys
self._sys = sys
self._stdout = sys.stdout
sys.stdout = self
return self
def write(self,txt):
self.lt.append(txt)
def __exit__(self, type, value, traceback):
self._sys.stdout = self._stdout
Used as:
lt = []
with out_to_lt(lt) as o:
print("Test 123\n\n")
print(help(str))
Updating. Just found a scenario where I had to add two extra methods, but was easy to adapt:
class out_to_lt():
...
def isatty(self):
return True #True: You're running in a real terminal, False:You're being piped, redirected, cron
def flush(self):
pass
There are other versions using context but nothing this simple. I actually just googled to double check it would work and was surprised not to see it, so for other people looking for a quick solution that is safe and directed at only the code within the context block, here it is:
import sys
with open('test_file', 'w') as sys.stdout:
print('Testing 1 2 3')
Tested like so:
$ cat redirect_stdout.py
import sys
with open('test_file', 'w') as sys.stdout:
print('Testing 1 2 3')
$ python redirect_stdout.py
$ cat test_file
Testing 1 2 3