You can access variables via a string representation of their name by using the dictionaries returned either
locals() as appropriate - although you may find things don't behave as you expect if you modify the
locals() dictionary, as noted in the docs and demonstrated by a code snippet at the bottom of this answer. You can also modify instance, class, or module variables via string labels by using, respectively,
setattr(self, 'some_variable_name', value),
setattr(ClassName, 'some_variable_name', value) or
setattr(ModuleName, 'some_variable_name', value) where self, ClassName and ModuleName are respectively references to a class instance, a class, and a module. Finally, you could always achieve what you want by using
exec to execute code contained in strings. For example:
for i in range(5):
temp = i
exec('var%d = temp' % i)
print var0, var1, var2, var3, var4
0 1 2 3 4.
But why on earth would you want to do any of these things? You can just create and use a dictionary instead if you need to map arbitrary strings to values. If, as in your example, you're not dealing with arbitrary strings but rather with a sequence of variables that differ only by an integer index at the end of their name, then use a list because that's what lists are for.
Doing things in any of the ways I described in my first paragraph is confusing and pointless and I've never seen it done in real code.
I want to re-emphasize that the important thing here, as Ashwini Chaudhary has already pointed out, is that there is no reason to refer to variables via strings in this way because if you need to map strings to values, you can simply use a dictionary - which is exactly what you're indirectly doing anyway if you use
locals(), since those functions each return dictionaries.
Anyway, as a postscript, I mentioned that things don't quite work right if you modify the locals() dictionary, which is not meant to be modified as noted in the docs, which remark
Note The contents of this dictionary should not be modified; changes may not affect the values of local and free variables used by the interpreter.
Well, here is an illustration of that point, and may it deter anyone from trying this approach:
var1 = 'asdf'
var1 = 'ghjkl'
globals()['var2'] = 'qwerty'
locals()['var2'] = 'uiop'
What gets printed if you run the above code? To my surprise, it's:
The first test behaves as I'd expect - the lookup in globals finds the value assigned outside the function, and the lookup in locals finds the value assigned locally. The second test is the surprising one - even though we've assigned a value in globals and a value in locals, locally referring to the variable by name finds the value we place in the globals dictionary, not the locals one.