The returncode gets returned by the
poll call, and is also (once
poll did not return
None) accessible via the
returncode attribute. You are already using this in your code, so I'm not sure what your problem with that is.
When you want to update your control while your process is running, use
readline instead of
read: the latter will wait for the entire output to be present, while the former will wait on a newline character. To give a full example using your variable names:
from subprocess import Popen, PIPE
self.myproc = Popen('dir /s', shell=True, stdout=PIPE, stderr=PIPE)
while self.myproc.poll() == None:
self._parent.AppendUpdate('Return code was ' + self.myproc.returncode)
Note that you might want to
readline result as it will contain the newline character.
Edit: To address your confusion between the script output and its return code, the following. First, a Python script at module level cannot return a value: that would yield a syntax error. So what you should differentiate between is the output of the script, and the return code it gives.
The script's output is in the above example read by using the
self.myproc.stdout.readline method. Every time the external process has produced a line of outputted text, calling that function would retrieve it.
The return code however (or exit status) is an integer that gets passed from a child process to the parent (your) process, indicating the state in which the child process exited. In Python, you do this with the
sys.exit function. Most commonly, when this value is zero it indicates success; a non-zero value depicts some kind of error.
Say your child process script looks like this:
# Do some stuff
print 'pass' # Gets to stdout
sys.exit(0) # Return code
Executing this external file (let's call it
test.py) with the
Popen class, we will get
pass when we read out
0 when we read out
self.myproc.returncode after the first poll).
The purpose of this return code is that you do not have to parse all of the child process' output to determine if it succeeded in its job: you are free to define your own exit codes. For example, you could consider
0 to be a success,
1 to be a failure,
2 to be some kind of invalid input given,
9 an unknown error, and so on. That way, you can just keep
polling the process, and based on the exit code returned by that poll you directly know if it was successful. Note that this is a bit less applicable to your case as you need the output of the child process anyway, but still it is easier to parse a number than a string to determine success.