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What do I pass as the first parameter "object" to the function setattr(object, name, value), to set variables on the current module?

For example:

setattr(object, "SOME_CONSTANT", 42);

giving the same effect as:


within the module containing these lines (with the correct object).

I'm generate several values at the module level dynamically, and as I can't define __getattr__ at the module level, this is my fallback.

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4 Answers 4

up vote 85 down vote accepted
import sys

thismodule = sys.modules[__name__]

setattr(thismodule, name, value)

or, without using setattr (which breaks the letter of the question but satisfies the same practical purposes;-):

globals()[name] = value

Note: at module scope, the latter is equivalent to:

vars()[name] = value

which is a bit more concise, but doesn't work from within a function (vars() gives the variables of the scope it's called at: the module's variables when called at global scope, and then it's OK to use it R/W, but the function's variables when called in a function, and then it must be treated as R/O -- the Python online docs can be a bit confusing about this specific distinction).

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The docs give a warning about modifying vars(). docs.python.org/library/functions.html#vars . When is it okay to do this? –  unutbu May 29 '10 at 2:44
@~unutbu, I wouldn't really say that it's quite "okay", but it will work when you call vars() at module-level scope rather than inside of a function. –  Mike Graham May 29 '10 at 3:06
vars() is equivalent to globals() at module scope (and so returns a true, modifiable dict) but to locals() at function scope (and so returns a never-to-be-modified pseudodict). I use vars() at module scope as it saves 3 characters, one syllable, vs its synonym-in-that-scope globals();-) –  Alex Martelli May 29 '10 at 3:39
Yes, it would have destroyed the single most important optimization the Python compiler does: a function's local variables are not kept in a dict, they're in a tight vector of values, and each local variable access uses the index in that vector, not a name lookup. To defeat the optimization, forcing the dict you desire to exist, start the function with exec '': time a function with a couple substantial loops each way, and you'll see the importance of this core optimization to Python's performance. –  Alex Martelli May 29 '10 at 5:07
@msw, I think you forgot "practicality beats purity";-). –  Alex Martelli May 29 '10 at 15:20

If you must set module scoped variables from within the module, what's wrong with global?

# my_module.py

def define_module_scoped_variables():
    global a, b, c
    a, b, c = 'a', ['b'], 3


>>> import my_module
>>> my_module.define_module_scoped_variables()
>>> a
NameError: name 'a' is not defined
>>> my_module.a
>>> my_module.b
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I like that you demonstrate the variables' scopes are constrained to the module. Thanks! –  Matt Joiner May 29 '10 at 5:22
Yeah, I've always (where "always" is defined as the "last few months I've been learning Python") found that global but not really declaration puzzling. I suppose it may be a historical relic that predates module namespaces. –  msw May 29 '10 at 5:45
  1. You wouldn't. You would do globals()["SOME_CONSTANT"] = 42
  2. You wouldn't. You would store dynamically-generated content somewhere other than a module.
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Yep, SOME_CONSTANT computed at run-time isn't exactly constant. And if globals() isn't available to you then you must be reaching into another module to modify its attributes; that's bound to get people wondering. –  msw May 29 '10 at 2:52
Constant and mutable are mutually exclusive. Constant and dynamically generated are not. The values I'm generating are always the same, and determined based on further "constants", to save on arithmetic and typing on my part. –  Matt Joiner May 29 '10 at 5:20

Strange as it might sound, it's perfectly legal to import a module within itself.

# -- foo.py --
import foo
setattr(foo, 'OTHER_CONSTANT', 'bar')
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Circular imports are more than a little precarious. –  Mike Graham May 29 '10 at 3:09
@Mike Graham - While I get that impression that it isn't a good idea, I'm not sure off hand why. The module object is (I believe) guaranteed to exist in the modules table by the time any of the module code gets run, and the code will only be run once, barring reloads. It seems like it might be a good idea to delete the variable once you're done with it, though, in case anything tries to crawl the module recursively. –  kwatford May 29 '10 at 3:18
An interesting idea, but I'm not sure I want to try it :P –  Matt Joiner May 29 '10 at 5:13
Out of curiosity, adding print(OTHER_CONSTANT) at the end and running python foo.py raises: bar Traceback (most recent call last): File "foo.py", line 4, in <module> print(OTHER_CONSTANT) NameError: name 'OTHER_CONSTANT' is not defined –  Ioannis Filippidis Jul 26 '14 at 22:24
@johntex When you run python foo.py, Python does something interesting. Instead of making a module object called foo and running the code in it, it makes one called __main__ for that job. When the code in __main__ encounters the call to import foo, the import system checks for foo and sees it isn't loaded, so it loads it again as foo. Now you have two copies of the code, but both of them only refer to foo, so __main__ doesn't have its own copies of those constants. Therefore, name error. Just one reason why this sort of thing is "more than a little precarious". –  kwatford Jul 27 '14 at 0:25

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