How does exec work with locals?

This issue is somewhat discussed in the Python3 bug list. Ultimately, to get this behavior, you need to do:

def foo():    ldict = {}    exec("a=3",globals(),ldict)    a = ldict['a']    print(a)

And if you check the Python3 documentation on exec, you'll see the following note:

The default locals act as described for function locals() below: modifications to the default locals dictionary should not be attempted. Pass an explicit locals dictionary if you need to see effects of the code on locals after function exec() returns.

That means that one-argument exec can't safely perform any operations that would bind local variables, including variable assignment, imports, function definitions, class definitions, etc. It can assign to globals if it uses a global declaration, but not locals.

Referring back to a specific message on the bug report, Georg Brandl says:

To modify the locals of a function on the fly is notpossible without several consequences: normally, function locals are notstored in a dictionary, but an array, whose indices are determined atcompile time from the known locales. This collides at least with newlocals added by exec. The old exec statement circumvented this, becausethe compiler knew that if an exec without globals/locals args occurredin a function, that namespace would be "unoptimized", i.e. not using thelocals array. Since exec() is now a normal function, the compiler doesnot know what "exec" may be bound to, and therefore can not treat isspecially.

Emphasis is mine.

So the gist of it is that Python3 can better optimize the use of local variables by not allowing this behavior by default.

And for the sake of completeness, as mentioned in the comments above, this does work as expected in Python 2.X:

Python 2.6.2 (release26-maint, Apr 19 2009, 01:56:41) [GCC 4.3.3] on linux2Type "help", "copyright", "credits" or "license" for more information.>>> def f():...     a = 1...     exec "a=3"...     print a... >>> f()3

If you are inside a method, you can do so:

class Thing():    def __init__(self):        exec('self.foo = 2')x = Thing()print(x.foo)

You can read more about it here

The reason that you can't change local variables within a function using exec in that way, and why exec acts the way it does, can be summarized as following:

1. exec is a function that shares its local scope with the scope of the most inner scope in which it's called.
2. Whenever you define a new object within a function's scope it'll be accessible in its local namespace, i.e. it will modify the local() dictionary. When you define a new object in exec what it does is roughly equivalent to following:

from copy import copyclass exec_type:    def __init__(self, *args, **kwargs):        # default initializations        # ...        self.temp = copy(locals())    def __setitem__(self, key, value):        if var not in locals():            set_local(key, value)        self.temp[key] = value

temp is a temporary namespace that resets after each instantiation (each time you call the exec).

3. Python starts looking up for the names from local namespace. It's known as LEGB manner. Python starts from Local namespce then looks into the Enclosing scopes, then Global and at the end it looks up the names within Buit-in namespace.

A more comprehensive example would be something like following:

g_var = 5def test():    l_var = 10    print(locals())    exec("print(locals())")    exec("g_var = 222")    exec("l_var = 111")    exec("print(locals())")    exec("l_var = 111; print(locals())")    exec("print(locals())")    print(locals())    def inner():        exec("print(locals())")        exec("inner_var = 100")        exec("print(locals())")        exec("print([i for i in globals() if '__' not in i])")    print("Inner function: ")    inner()    print("-------" * 3)    return (g_var, l_var)print(test())exec("print(g_var)")

Output:

{'l_var': 10}{'l_var': 10}

locals are the same.

{'l_var': 10, 'g_var': 222}

after adding g_var and changing the l_var it only adds g_var and left the l_var unchanged.

{'l_var': 111, 'g_var': 222}

l_var is changed because we are changing and printing the locals in one instantiation ( one call to exec).

{'l_var': 10, 'g_var': 222}{'l_var': 10, 'g_var': 222}

In both function's locals and exec's local l_var is unchanged and g_var is added.

Inner function: {}{'inner_var': 100}{'inner_var': 100}

inner_function's local is same as exec's local.

['g_var', 'test']

global is only contain g_var and function name (after excluding the special methods).

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