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I create a dictionary from a remote database as part of my application run. This process is pretty I/O heavy, so I've decided to create a "singleton" instance of this dictionary and just call it as it is needed in my application.

The code looks like (in Dictionaries.py):

state_code_dict = None

def get_state_code_dict():
    global state_code_dict
    if state_code_dict == None:
        state_code_dict = generate_state_code_dict()
    return state_code_dict

I then import and call the get_state_code_dict() function where needed. I added a print statement to check if state_code_dict was being reinitialized or reused, and I found it was being reused (which is the functionality I want). Why is the instance of state_code_dict surviving the application run?


I import the get_state_code_dict function in multiple files.

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because imported code gets executed only the first time? –  KurzedMetal Jun 7 '12 at 17:29
edited to clarify: I import the code in multiple locations (multiple files include the get_state_code_dict function. –  Tyler DeWitt Jun 7 '12 at 17:32
Importing code that the interpreter has already loaded will not re-load that code by default. It's possible to deliberately reload a module but if you have to do this for any reason other than because the actual code of the module might have changed during runtime, you should probably use a different programming idiom to do what you want to do. –  Andrew Gorcester Jun 7 '12 at 17:35
And this behavior is desirable precisely because module initialization is sometimes heavyweight. –  Russell Borogove Jun 7 '12 at 17:40

3 Answers 3

up vote 10 down vote accepted

This is the Python Language Reference's description of how importing a module works:

(1) find a module, and initialize it if necessary; (2) define a name or names in the local namespace

(Emphasis added.) Here, initializing a module means executing its code. This execution is only performed if necessary, i.e. if the module was not previously imported in the current process. Since Python modules are first-class runtime objects, they effectively become singletons, initialized at the time of first import.

Note that this means that there's no need for a get_state_dict_code function; just initialize state_code_dict at top-level:

state_code_dict = generate_state_code_dict()

For a more in-depth explanation, see this talk by Thomas Wouters, esp. the first part where he discusses the "everything is runtime" principle.

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+1 for the simplified module-as-singleton idiom. –  Russell Borogove Jun 7 '12 at 17:37
Would I then get the state_code_dict by calling import Dictionaries; state_code_dict = Dictionaries.state_code_dict? –  Tyler DeWitt Jun 7 '12 at 17:57
@TylerDeWitt: yes. Or by the idiomatic from Dictionaries import state_code_dict. –  larsmans Jun 7 '12 at 18:00

I voted larsmans answer, i just wanted to add an example.


hi = 'hello'


def print_hi():

ipython session:

In [1]: from hello import print_hi

In [2]: print_hi()

In [3]: from hello import print_hi

In [4]: import hello

In [5]: hello.print_hi()

Look that the imports at lines 3 and 4 don't output "hello" as the import in line 1 did, that means the code isn't re-executed.

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That's how it works in every language I can think of. Java, C#, C++, C, Python, etc.

If you got a separate instance of globals each time you imported a module, you would have to find some different way to share global state.

If you don't want global state, then you should create a class instead of using global variables.

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It would be nice if when folks find an answer incorrect, they explain why, so I can be enlightened. –  Dietrich Epp Jun 7 '12 at 17:38
There are a lot of features of Python that work differently from other languages, so bringing that up isn't helpful at all. Not my downvote by the way, I prefer communication to punishment. –  Mark Ransom Jun 7 '12 at 17:41
I didn't downvote you, but in C/C++, #include, unlike Python's import, is not idempotent - it does an unconditional, literal text insertion, which doesn't map well onto the concept of imports in other languages. –  Russell Borogove Jun 7 '12 at 17:43
But most features in Python are the same as other languages. The concept of global variables, integers, classes, functions, local variables, etc... –  Dietrich Epp Jun 7 '12 at 17:43
@RussellBorogove: #include isn't idempotent, but multiple declarations of global variables are idempotent and always resolve to the same global variable. –  Dietrich Epp Jun 7 '12 at 17:45

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