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What does the if __name__ == "__main__": do?

# Threading example
import time, thread

def myfunction(string, sleeptime, lock, *args):
    while 1:
if __name__ == "__main__":
    lock = thread.allocate_lock()
    thread.start_new_thread(myfunction, ("Thread #: 1", 2, lock))
    thread.start_new_thread(myfunction, ("Thread #: 2", 2, lock))

Also, what does *args mean in this example?

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Sorry, I removed the if name == 'main' from my example code in that question for clarity -- it doesn't really relate to that answer anyhow. No real need to import example scripts as modules, it was just force of habit. :-) –  cdleary Jan 7 '09 at 11:04

12 Answers 12

up vote 1107 down vote accepted

Expanding a bit on Harley's answer...

When the Python interpreter reads a source file, it executes all of the code found in it. Before executing the code, it will define a few special variables. For example, if the python interpreter is running that module (the source file) as the main program, it sets the special __name__ variable to have a value "__main__". If this file is being imported from another module, __name__ will be set to the module's name.

In the case of your script, let's assume that it's executing as the main function, e.g. you said something like

python threading_example.py

on the command line. After setting up the special variables, it will execute the import statement and load those modules. It will then evaluate the def block, creating a function object and creating a variable called myfunction that points to the function object. It will then read the if statement and see that __name__ does equal "__main__", so it will execute the block shown there.

One of the reasons for doing this is that sometimes you write a module (a .py file) where it can be executed directly. Alternatively, it can also be imported and used in another module. By doing the main check, you can have that code only execute when you want to run the module as a program and not have it execute when someone just wants to import your module and call your functions themselves.

See this page for some extra details.

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When your script is run by passing it as a command to the Python interpreter,

python myscript.py

all of the code that is at indentation level 0 gets executed. Functions and classes that are defined are, well, defined, but none of their code gets ran. Unlike other languages, there's no main() function that gets run automatically - the main() function is implicitly all the code at the top level.

In this case, the top-level code is an if block. __name__ is a built-in variable which evaluate to the name of the current module. However, if a module is being run directly (as in myscript.py above), then __name__ instead is set to the string "__main__". Thus, you can test whether your script is being run directly or being imported by something else by testing

if __name__ == "__main__":

If that code is being imported into another module, the various function and class definitions will be imported, but the main() code won't get run. As a basic example, consider the following two scripts:

# file one.py
def func():
    print("func() in one.py")

print("top-level in one.py")

if __name__ == "__main__":
    print("one.py is being run directly")
    print("one.py is being imported into another module")

# file two.py
import one

print("top-level in two.py")

if __name__ == "__main__":
    print("two.py is being run directly")
    print("two.py is being imported into another module")

Now, if you invoke the interpreter as

python one.py

The output will be

top-level in one.py
one.py is being run directly

If you run two.py instead:

python two.py

You get

top-level in one.py
one.py is being imported into another module
top-level in two.py
func() in one.py
two.py is being run directly

Thus, when module one gets loaded, its __name__ equals "one" instead of __main__.

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And by merely importing a script, all this script's top-level code gets executed first? –  skyork Mar 3 '12 at 0:58
@skyork Yes, you are correct. –  ƊŗęДdϝul Ȼʘɗɇ Jul 5 '13 at 8:30
Don't forget about the code inside a class, but outside its methods that gets ran when the module is loaded as well –  notbad.jpeg Jul 24 '14 at 13:29

The simplest explanation for the __name__ variable (imho) is the following:

Create the following files.

# a.py
import b


# b.py
print "Hello World from %s!" % __name__

if __name__ == '__main__':
    print "Hello World again from %s!" % __name__

Running them will get you this output:

$ python a.py
Hello World from b!

As you can see, when a module is imported, Python sets globals()['__name__'] in this module to the module's name.

$ python b.py
Hello World from __main__!
Hello World again from __main__!

As you can see, when a file is executed, Python sets globals()['__name__'] in this file to "__main__".

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-1: this answer does not explain anything about the __name__ variable. –  LoicAG Apr 29 '14 at 11:56
@LoicAG Better now? –  pi. Aug 6 '14 at 14:08
Yes, thanks for the clarification, downvote removed –  LoicAG Aug 7 '14 at 12:38

I'm attempting to answer the primary question here with as thorough an explanation as I can.

Developing and Testing Your Code

Say you're writing a Python script designed to be used as a module:

def do_important():
    '''This function does something very important'''

You could test the module by adding this call of the function to the bottom:


and running it with something like (on a command prompt):

~$ python important.py

The Problem

However, if you want to import the module to another script:

import important

On import, the do_important function would be called, so you'd probably comment out your call of the function at the bottom. And then you'll have to remember whether or not you've commented out your test function call. And this extra complexity would mean you're likely to forget, making your development process more troublesome.

A Better Way

The __name__ variable points to the namespace wherever the python interpreter happens to be at the moment. Inside an imported module, it's the name of that module. But inside the primary module (or an interactive Python session, i.e. the interpreter's Read, Eval, Print Loop, or REPL) you are running everything from, it's "__main__".

So if you check before executing:

if __name__ == "__main__":

With the above, your code will only execute when you're running it as the primary module (or intentionally call it from another script).

An Even Better Way

There's a Pythonic way to improve on this, though.

What if we want to run this business process from outside the module? Also, Python code can run faster in a function (see the link for how and why), so if we put the code we want to exercise as we develop and test in a function like this and then do our check for '__main__' immediately after:

def main():
    '''business logic for when running this module as the primary one!'''
    foo = do_important()
    bar = do_even_more_important(foo)
    for baz in bar:

# Here's our payoff idiom!
if __name__ == '__main__':

We now have a final function for the end of our module that will run if we run the module as the primary module, but that will also allow the module and its functions and classes to be imported into other scripts without running the main function, in the most efficient way (if efficiency matters), as well as be called when running from a different '__main__' module, i.e.

import important

This idiom can also be found (deep) in the Python documentation in an explanation of the __main__ module. That text states:

This module represents the (otherwise anonymous) scope in which the interpreter’s main program executes — commands read either from standard input, from a script file, or from an interactive prompt. It is this environment in which the idiomatic “conditional script” stanza causes a script to run:

if __name__ == '__main__':
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+1 for the "An Even Better Way" section. That's true. I have seen experienced developers doing so. –  kami Jun 27 '14 at 17:21

The syntax *args in a function declaration lets you accept an arbitrary number of parameters (other than those explicitly named, like string, sleeptime,and lock in your example):

def printStuff(*args):
    for arg in args:
    	print arg

printStuff(1, 2, "Hello World")

Hello World

The syntax *args in a function call lets you call with the items of the list args as further arguments:

args = [4, 5, "Goodbye"]
printStuff(2, 3, *args)

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*args and **kwargs mean:

 def on_the_menu(arg, *args, **kwargs):
       print arg
       print args
       print kwargs

  >>> on_the_menu(5, "spam", "eggs", "ham", sausage="and spam", spam="plenty")
  ('spam', 'eggs', 'ham')
  {'sausage': 'and spam', 'spam': 'plenty'}

And args and kwargs are only variable names. Name them as you like. For example sausage or spam. On the other hand, don't.

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if __name__ == "__main__" is the part that runs when the script is run from (say) the command line using a command like python myscript.py.

*args allows you to give the function more arguments than are explicitly required in the function definition.

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I'm new to Python, but I thought *args was a list, and **kwargs was a dictionary? –  Josh Smeaton Jan 7 '09 at 5:37
Yep, that's correct. Also worth pointing that the names (args and kwargs) aren't important either, it's the stars (* and **) that matter. –  Harley Holcombe Jan 7 '09 at 22:08
@JoshSmeaton No. *args is a tuple. –  glglgl Aug 29 '13 at 9:53

When there are certain statements in our module (M.py), we want to be executed when it 'll be running as main (not imported), in that case we can place those statements (test-cases, print statements) under this if block. As by default (when module running as main, not imported) the __name__ variable is set to "__main__", and when it'll be imported the __name__ variable 'll get a different value, most probably the name of the module ('M'). This is helpful in running different variants of a modules together, and seperating their specific input & output statements and also if any test-cases.

In short , use this 'if __name__ == "main" ' block to prevent (certain) code from being run when the module is imported.

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When you run Python interactively the local __name__ variable is assigned a value of __main__. Likewise, when you execute a Python module from the command line, rather than importing it into another module, its __name__ attribute is assigned a value of __main__, rather than the actual name of the module. In this way, modules can look at their own __name__ value to determine for themselves how they are being used, whether as support for another program or as the main application executed from the command line. Thus, the following idiom is quite common in Python modules:

if __name__ == '__main__':
    # Do something appropriate here, like calling a
    # main() function defined elsewhere in this module.
    # Do nothing. This module has been imported by another
    # module that wants to make use of the functions,
    # classes and other useful bits it has defined.
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A Terse Academic Canonical Answer:

__name__ is a global variable (in Python, global actually means on the module level) that exists in all namespaces.

As a special case, in whatever Python process you run, as in mycode.py:

python mycode.py

the otherwise anonymous global namespace is assigned the value of '__main__' to its __name__. Thus, including the stanza

if __name__ == '__main__':

at the end of your mycode.py script, when it is the primary module is run by a Python process, will cause your script's uniquely defined main function to run.

Another benefit of using this construct, you can also import your code as a module in another script and then run the main function if and when your program decides:

import mycode
# ... any amount of other code
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It could be written in several ways, another is:

def main():

__name__ == '__main__' and main()
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I would consider this bad form as you're 1) relying on side effects and 2) abusing and. and is used for checking if two boolean statements are both true. Since you're not interested in the result of the and, an if statement more clearly communicates your intentions. –  jpmc26 Dec 26 '13 at 18:07
@jpmc26, well I can't argue with that. Still looks kind of neat, no? –  Prof. Falken Dec 26 '13 at 19:54
In an obscure way, sure, but for real world programming, straightforward code is always superior. In my experience, that principle is especially highly valued in the Python community. It is always a good idea to make your code so simple that any idiot could understand it at a glance, mainly because in 6 months, you'll be that idiot since you won't remember what you did. –  jpmc26 Dec 27 '13 at 17:29
This is a nice way of handling simple conditions but only for programming in Shell/Bash. Don't use and instead of if in Python, Ruby, etc as these languages already have nice and clean condition operators. –  erthad Mar 16 '14 at 9:32

Let's look at the answer in a more abstract way:

Suppose we have this code in x.py:

<Block A>
if __name__ == '__main__':
    <Block B>

Blocks A and B are run when we are running "x.py".

But just block A (and not B) is run when we are running another module ,"y.py" for example, in which x.y is imported and the code is run from there (like when a function in "x.py" is called from y.py).

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protected by Jon Clements Apr 6 '13 at 11:04

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