It seems to me like the files run the same without that line.
If you have several versions of Python installed,
/usr/bin/env will ensure the interpreter used is the first one on your environment's
$PATH. The alternative would be to hardcode something like
#!/usr/bin/python; that's ok, but less flexible.
In Unix, an executable file that's meant to be interpreted can indicate what interpreter to use by having a
#! at the start of the first line, followed by the interpreter (and any flags it may need).
If you're talking about other platforms, of course, this rule does not apply (but that "shebang line" does no harm, and will help if you ever copy that script to a platform with a Unix base, such as Linux, Mac, etc).
In computing, a shebang (also called a hashbang, hashpling, pound bang, or crunchbang) refers to the characters "#!" when they are the first two characters in an interpreter directive as the first line of a text file. In a Unix-like operating system, the program loader takes the presence of these two characters as an indication that the file is a script, and tries to execute that script using the interpreter specified by the rest of the first line in the file.
See also the Unix FAQ entry.
Even on Windows, where the shebang line does not determine the interpreter to be run, you can pass options to the interpreter by specifying them on the shebang line. I find it useful to keep a generic shebang line in one-off scripts (such as the ones I write when answering questions on SO), so I can quickly test them on both Windows and ArchLinux.
The env utility allows you to invoke a command on the path:
The first remaining argument specifies the program name to invoke; it is searched for according to the
PATHenvironment variable. Any remaining arguments are passed as arguments to that program.
Expanding a bit on the other answers, here's a little example of how your command line scripts can get into trouble by incautious use of
/usr/bin/env shebang lines:
$ /usr/local/bin/python -V Python 2.6.4 $ /usr/bin/python -V Python 2.5.1 $ cat my_script.py #!/usr/bin/env python import json print "hello, json" $ PATH=/usr/local/bin:/usr/bin $ ./my_script.py hello, json $ PATH=/usr/bin:/usr/local/bin $ ./my_script.py Traceback (most recent call last): File "./my_script.py", line 2, in <module> import json ImportError: No module named json
The json module doesn't exist in Python 2.5.
One way to guard against that kind of problem is to use the versioned python command names that are typically installed with most Pythons:
$ cat my_script.py #!/usr/bin/env python2.6 import json print "hello, json"
If you just need to distinguish between Python 2.x and Python 3.x, recent releases of Python 3 also provide a
$ cat my_script.py #!/usr/bin/env python3 import json print("hello, json")
In order to run the python script, we need to tell the shell three things:
- That the file is a script
- Which interpreter we want to execute the script
- The path of said interpreter
#! accomplishes (1.). The shebang begins with a
# because the
# character is a comment marker in many scripting languages. The contents of the shebang line are therefore automatically ignored by the interpreter.
env command accomplishes (2.) and (3.). To quote "grawity,"
A common use of the
envcommand is to launch interpreters, by making use of the fact that env will search $PATH for the command it is told to launch. Since the shebang line requires an absolute path to be specified, and since the location of various interpreters (perl, bash, python) may vary a lot, it is common to use:
#!/usr/bin/env perlinstead of trying to guess whether it is /bin/perl, /usr/bin/perl, /usr/local/bin/perl, /usr/local/pkg/perl, /fileserver/usr/bin/perl, or /home/MrDaniel/usr/bin/perl on the user's system...
On the other hand, env is almost always in /usr/bin/env. (Except in cases when it isn't; some systems might use /bin/env, but that's a fairly rare occassion and only happens on non-Linux systems.)
Technically, in Python, this is just a comment line.
This line is only used if you run the py script from the shell (from the command line). This is know as the "Shebang!", and it is used in various situations, not just with Python scripts.
Here, it instructs the shell to start a specific version of Python (to take care of the rest of the file.
Perhaps your question is in this sense:
If you want to use:
You don't need that line at all. The system will call python and then python interpreter will run your script.
But if you intend to use:
Calling it directly like a normal program or bash script, you need write that line to specify to the system which program use to run it, (and also make it executable with
The main reason to do this is to make the script portable across operating system environments.
For example under mingw, python scripts use :
and under GNU/Linux distribution it is either:
and under the best commercial Unix sw/hw system of all (OS/X), it is:
or on FreeBSD:
However all these differences can make the script portable across all by using:
exec system call of the Linux kernel understands shebangs (
When you do on bash:
on Linux, this calls the
exec system call with the path
This line of the kernel gets called on the file passed to
if ((bprm->buf != '#') || (bprm->buf != '!'))
This reads the very first bytes of the file, and compares them to
If that is true, then the rest of the line is parsed by the Linux kernel, which makes another exec call with path
/usr/bin/env python and current file as the first argument:
/usr/bin/env python /path/to/script.py
and this works for any scripting language that uses
# as a comment character.
And yes, you can make an infinite loop with:
printf '#!/a\n' | sudo tee /a sudo chmod +x /a /a
Bash recognizes the error:
-bash: /a: /a: bad interpreter: Too many levels of symbolic links
#! just happens to be human readable, but that is not required.
If the file started with different bytes, then the
exec system call would use a different handler. The other most important built-in handler is for ELF executable files: https://github.com/torvalds/linux/blob/v4.8/fs/binfmt_elf.c#L1305 which checks for bytes
7f 45 4c 46 (which also happens to be human readable for
.ELF). This reads the ELF file, puts it into memory correctly, and starts a new process with it. See also: How does kernel get an executable binary file running under linux?
Finally, you can add your own shebang handlers with the
binfmt_misc mechanism. For example, you can add a custom handler for
.jar files. This mechanism even supports handlers by file extension. Another application is to transparently run executables of a different architecture with QEMU.
I don't think POSIX specifies shebangs however: https://unix.stackexchange.com/a/346214/32558 , although it does mention in on rationale sections, and in the form "if executable scripts are supported by the system something may happen".
It probably makes sense to emphasize one thing that the most have missed, which may prevent immediate understanding. When you type
python in terminal you don't normally provide a full path. Instead, the executable is up looked in
PATH environment variable. In turn, when you want to execute a Python program directly,
/path/to/app.py, one must tell the shell what interpreter to use (via the hashbang, what the other contributors are explaining above).
Hashbang expects full path to an interpreter. Thus to run your Python program directly you have to provide full path to Python binary which varies significantly, especially considering a use of virtualenv. To address portability the trick with
/usr/bin/env is used. The latter is originally intended to alter environment in-place and run a command in it. When no alteration is provided it runs the command in current environment, which effectively results in the same
PATH lookup which does the trick.
It's recommended way, proposed in documentation:
2.2.2. Executable Python Scripts
On BSD’ish Unix systems, Python scripts can be made directly executable, like shell scripts, by putting the line
#! /usr/bin/env python3.2
You can try this issue using virtualenv
Here is test.py
#! /usr/bin/env python import sys print(sys.version)
Create virtual environments
virtualenv test2.6 -p /usr/bin/python2.6 virtualenv test2.7 -p /usr/bin/python2.7
activate each environment then check the differences
echo $PATH ./test.py
It seems to me like the files run the same without that line.
If so, then perhaps you're running the Python program on Windows? Windows doesn't use that line—instead, it uses the file-name extension to run the program associated with the file extension.
However in 2011, a "Python launcher" was developed which (to some degree) mimics this Linux behaviour for Windows. This is limited just to choosing which Python interpreter is run — e.g. to select between Python 2 and Python 3 on a system where both are installed. The launcher is optionally installed as
py.exe by Python installation, and can be associated with
.py files so that the launcher will check that line and in turn launch the specified Python interpreter version.
This is meant as more of historical information than a "real" answer.
Remember that back in the day you had LOTS of unix like operating systems whose designers all had their own notion of where to put stuff, and sometimes didn't include Python, Perl, Bash, or lots of other GNU/Open Source stuff at all.
This was even true of different Linux distributions. On Linux--pre-FHS-you might have python in /usr/bin/ or /usr/local/bin/. Or it might not have been installed, so you built your own and put it in ~/bin
Solaris was the worst I ever worked on, partially as the transition from Berkeley Unix to System V. You could wind up with stuff in /usr/, /usr/local/, /usr/ucb, /opt/ etc. This could make for some really long paths. I have memories of the stuff from Sunfreeware.com installing each package in it's own directory, but I can't recall if it symlinked the binaries into /usr/bin or not.
Oh, and sometimes /usr/bin was on an NFS server.
env utility was developed to work around this.
Then you could write
#!/bin/env interpreter and as long as the path was proper things had a reasonable chance of running. Of course, reasonable meant (for Python and Perl) that you had also set the appropriate environmental variables. For bash/ksh/zsh it just worked.
This was important because people were passing around shell scripts (like perl and python) and if you'd hard coded /usr/bin/python on your Red Hat Linux workstation it was going to break bad on a SGI...well, no, I think IRIX put python in the right spot. But on a Sparc station it might not run at all.
I miss my sparc station. But not a lot. Ok, now you've got me trolling around on E-Bay. Bastages.
 File-system Hierarchy Standard. https://en.wikipedia.org/wiki/Filesystem_Hierarchy_Standard
 Yes, and sometimes people still do stuff like that. And no, I did not wear either a turnip OR an onion on my belt.
If you're running your script in a virtual environment, say
venv, then executing
which python while working on
venv will display the path to the Python interpreter:
Note that the name of the virtual environment is embedded in the path to the Python interpreter. Therefore, hardcoding this path in your script will cause two problems:
- If you upload the script to a repository, you're forcing other users to have the same virtual environment name. This is if they identify the problem first.
- You won't be able to run the script across multiple virtual environments even if you had all required packages in other virtual environments.
Therefore, to add to Jonathan's answer, the ideal shebang is
#!/usr/bin/env python, not just for portability across OSes but for portability across virtual environments as well!
It just specifies what interpreter you want to use. To understand this, create a file through terminal by doing
touch test.py, then type into that file the following:
#!/usr/bin/env python3 print "test"
chmod +x test.py to make your script executable. After this when you do
./test.py you should get an error saying:
File "./test.py", line 2 print "test" ^ SyntaxError: Missing parentheses in call to 'print'
because python3 doesn't supprt the print operator.
Now go ahead and change the first line of your code to:
and it'll work, printing
test to stdout, because python2 supports the print operator. So, now you've learned how to switch between script interpreters.
Considering the portability issues between
python3, you should always specify either version unless your program is compatible with both.
Some distributions are shipping
python symlinked to
python3 for a while now - do not rely on
This is emphasized by PEP 394:
In order to tolerate differences across platforms, all new code that needs to invoke the Python interpreter should not specify python, but rather should specify either python2 or python3 (or the more specific python2.x and python3.x versions; see the Migration Notes). This distinction should be made in shebangs, when invoking from a shell script, when invoking via the system() call, or when invoking in any other context.
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