import module from string variable
Solution 1:
The __import__
function can be a bit hard to understand.
If you change
i = __import__('matplotlib.text')
to
i = __import__('matplotlib.text', fromlist=[''])
then i
will refer to matplotlib.text
.
In Python 2.7 and Python 3.1 or later, you can use importlib
:
import importlib
i = importlib.import_module("matplotlib.text")
Some notes
If you're trying to import something from a sub-folder e.g.
./feature/email.py
, the code will look likeimportlib.import_module("feature.email")
You can't import anything if there is no
__init__.py
in the folder with file you are trying to import
Solution 2:
importlib.import_module
is what you are looking for. It returns the imported module.
import importlib
mymodule = importlib.import_module('matplotlib.text')
You can thereafter access anything in the module as mymodule.myclass
, mymodule.myfunction
, etc.
Solution 3:
spent some time trying to import modules from a list, and this is the thread that got me most of the way there - but I didnt grasp the use of ___import____ -
so here's how to import a module from a string, and get the same behavior as just import. And try/except the error case, too. :)
pipmodules = ['pycurl', 'ansible', 'bad_module_no_beer']
for module in pipmodules:
try:
# because we want to import using a variable, do it this way
module_obj = __import__(module)
# create a global object containging our module
globals()[module] = module_obj
except ImportError:
sys.stderr.write("ERROR: missing python module: " + module + "\n")
sys.exit(1)
and yes, for python 2.7> you have other options - but for 2.6<, this works.
Solution 4:
Apart from using the importlib
one can also use exec
method to import a module from a string variable.
Here I am showing an example of importing the combinations
method from itertools
package using the exec
method:
MODULES = [
['itertools','combinations'],
]
for ITEM in MODULES:
import_str = "from {0} import {1}".format(ITEM[0],', '.join(str(i) for i in ITEM[1:]))
exec(import_str)
ar = list(combinations([1, 2, 3, 4], 2))
for elements in ar:
print(elements)
Output:
(1, 2)
(1, 3)
(1, 4)
(2, 3)
(2, 4)
(3, 4)