Although in Python it looks kind of like the local variables are stored in a dictionary
locals(), they usually aren't. Instead they are mostly stored on the stack and accessed by index. This makes local variable lookup faster than if it had to do a dictionary lookup every time. If you use the
locals() function then what you get is a fresh dictionary created from all the local variables, and that's why assigning to
locals() doesn't generally work.
There are a couple of exceptions to this scenario:
When you use an unqualified
exec inside a function Python turns off the optimisation and uses a real dictionary for the local variables. That means you can create or update variables from inside the
exec, but it also means all local variable access in that function will run more slowly.
The other exception is that when you nest functions the inner function can access local variables in the outer function scope. When it does this the variable is stored in a 'cell' object instead of being stored on the stack. The extra level of indirection makes all use of scoped variables slower whether you access them from the inner or outer function.
The catch that you've encountered is that these two exceptions to how local variables are normally stored are incompatible. You cannot have a variable stored in a dictionary and accessed through a cell reference at the same time. Python 2.x fixes this by disallowing the exec, even in cases like this where you aren't trying to use any scoped variables.