def a():
x=20
def b():
global x
x=88
print("before calling b",x)
b()
print("after calling b",x)
a()
My code is showing no error while debugging but when I run it, it shows no output. It is not getting the function.
In the above code you call the function a which creates and sets a local variable x and defines a nested function, but that function is never called. As such you do not see any prints.
Note that just calling b() in a is not a good idea - as this function will recursively call itself with no stop condition. Instead you could write it as follows:
def a():
x=20
def b():
global x
x=88
print("before calling b", x)
b()
print("after calling b", x)
a()
It seems like what you really want is this code:
def a():
x=20
def b():
global x
x=88
print("before calling b",x)
b()
print("after calling b",x)
a()
This code tests the effect of calling b from within a on the values of a variable x, local to a. There will be no effect, as x is not global. The output would be:
before calling b 20
after calling b 20
If you change the definition of b to:
def b():
nonlocal x
x=88
You will see the effect of modifying x:
before calling b 20
after calling b 88
Related
Consider this example:
def A():
b = 1
def B():
# I can access 'b' from here.
print(b)
# But can i modify 'b' here?
B()
A()
For the code in the B function, the variable b is in a non-global, enclosing (outer) scope. How can I modify b from within B? I get an UnboundLocalError if I try it directly, and using global does not fix the problem since b is not global.
Python implements lexical, not dynamic scope - like almost all modern languages. The techniques here will not allow access to the caller's variables - unless the caller also happens to be an enclosing function - because the caller is not in scope. For more on this problem, see How can I access variables from the caller, even if it isn't an enclosing scope (i.e., implement dynamic scoping)?.
On Python 3, use the nonlocal keyword:
The nonlocal statement causes the listed identifiers to refer to previously bound variables in the nearest enclosing scope excluding globals. This is important because the default behavior for binding is to search the local namespace first. The statement allows encapsulated code to rebind variables outside of the local scope besides the global (module) scope.
def foo():
a = 1
def bar():
nonlocal a
a = 2
bar()
print(a) # Output: 2
On Python 2, use a mutable object (like a list, or dict) and mutate the value instead of reassigning a variable:
def foo():
a = []
def bar():
a.append(1)
bar()
bar()
print a
foo()
Outputs:
[1, 1]
You can use an empty class to hold a temporary scope. It's like the mutable but a bit prettier.
def outer_fn():
class FnScope:
b = 5
c = 6
def inner_fn():
FnScope.b += 1
FnScope.c += FnScope.b
inner_fn()
inner_fn()
inner_fn()
This yields the following interactive output:
>>> outer_fn()
8 27
>>> fs = FnScope()
NameError: name 'FnScope' is not defined
I'm a little new to Python, but I've read a bit about this. I believe the best you're going to get is similar to the Java work-around, which is to wrap your outer variable in a list.
def A():
b = [1]
def B():
b[0] = 2
B()
print(b[0])
# The output is '2'
Edit: I guess this was probably true before Python 3. Looks like nonlocal is your answer.
No you cannot, at least in this way.
Because the "set operation" will create a new name in the current scope, which covers the outer one.
I don't know if there is an attribute of a function that gives the __dict__ of the outer space of the function when this outer space isn't the global space == the module, which is the case when the function is a nested function, in Python 3.
But in Python 2, as far as I know, there isn't such an attribute.
So the only possibilities to do what you want is:
1) using a mutable object, as said by others
2)
def A() :
b = 1
print 'b before B() ==', b
def B() :
b = 10
print 'b ==', b
return b
b = B()
print 'b after B() ==', b
A()
result
b before B() == 1
b == 10
b after B() == 10
.
Nota
The solution of Cédric Julien has a drawback:
def A() :
global b # N1
b = 1
print ' b in function B before executing C() :', b
def B() :
global b # N2
print ' b in function B before assigning b = 2 :', b
b = 2
print ' b in function B after assigning b = 2 :', b
B()
print ' b in function A , after execution of B()', b
b = 450
print 'global b , before execution of A() :', b
A()
print 'global b , after execution of A() :', b
result
global b , before execution of A() : 450
b in function B before executing B() : 1
b in function B before assigning b = 2 : 1
b in function B after assigning b = 2 : 2
b in function A , after execution of B() 2
global b , after execution of A() : 2
The global b after execution of A() has been modified and it may be not whished so
That's the case only if there is an object with identifier b in the global namespace
The short answer that will just work automagically
I created a python library for solving this specific problem. It is released under the unlisence so use it however you wish. You can install it with pip install seapie or check out the home page here https://github.com/hirsimaki-markus/SEAPIE
user#pc:home$ pip install seapie
from seapie import Seapie as seapie
def A():
b = 1
def B():
seapie(1, "b=2")
print(b)
B()
A()
outputs
2
the arguments have following meaning:
The first argument is execution scope. 0 would mean local B(), 1 means parent A() and 2 would mean grandparent <module> aka global
The second argument is a string or code object you want to execute in the given scope
You can also call it without arguments for interactive shell inside your program
The long answer
This is more complicated. Seapie works by editing the frames in call stack using CPython api. CPython is the de facto standard so most people don't have to worry about it.
The magic words you are probably most likely interesed in if you are reading this are the following:
frame = sys._getframe(1) # 1 stands for previous frame
parent_locals = frame.f_locals # true dictionary of parent locals
parent_globals = frame.f_globals # true dictionary of parent globals
exec(codeblock, parent_globals, parent_locals)
ctypes.pythonapi.PyFrame_LocalsToFast(ctypes.py_object(frame),ctypes.c_int(1))
# the magic value 1 stands for ability to introduce new variables. 0 for update-only
The latter will force updates to pass into local scope. local scopes are however optimized differently than global scope so intoducing new objects has some problems when you try to call them directly if they are not initialized in any way. I will copy few ways to circumvent these problems from the github page
Assingn, import and define your objects beforehand
Assingn placeholder to your objects beforehand
Reassign object to itself in main program to update symbol table: x = locals()["x"]
Use exec() in main program instead of directly calling to avoid optimization. Instead of calling x do: exec("x")
If you are feeling that using exec() is not something you want to go with you can
emulate the behaviour by updating the the true local dictionary (not the one returned by locals()). I will copy an example from https://faster-cpython.readthedocs.io/mutable.html
import sys
import ctypes
def hack():
# Get the frame object of the caller
frame = sys._getframe(1)
frame.f_locals['x'] = "hack!"
# Force an update of locals array from locals dict
ctypes.pythonapi.PyFrame_LocalsToFast(ctypes.py_object(frame),
ctypes.c_int(0))
def func():
x = 1
hack()
print(x)
func()
Output:
hack!
I don't think you should want to do this. Functions that can alter things in their enclosing context are dangerous, as that context may be written without the knowledge of the function.
You could make it explicit, either by making B a public method and C a private method in a class (the best way probably); or by using a mutable type such as a list and passing it explicitly to C:
def A():
x = [0]
def B(var):
var[0] = 1
B(x)
print x
A()
For anyone looking at this much later on a safer but heavier workaround is. Without a need to pass variables as parameters.
def outer():
a = [1]
def inner(a=a):
a[0] += 1
inner()
return a[0]
You can, but you'll have to use the global statment (not a really good solution as always when using global variables, but it works):
def A():
global b
b = 1
def B():
global b
print( b )
b = 2
B()
A()
Consider this example:
def A():
b = 1
def B():
# I can access 'b' from here.
print(b)
# But can i modify 'b' here?
B()
A()
For the code in the B function, the variable b is in a non-global, enclosing (outer) scope. How can I modify b from within B? I get an UnboundLocalError if I try it directly, and using global does not fix the problem since b is not global.
Python implements lexical, not dynamic scope - like almost all modern languages. The techniques here will not allow access to the caller's variables - unless the caller also happens to be an enclosing function - because the caller is not in scope. For more on this problem, see How can I access variables from the caller, even if it isn't an enclosing scope (i.e., implement dynamic scoping)?.
On Python 3, use the nonlocal keyword:
The nonlocal statement causes the listed identifiers to refer to previously bound variables in the nearest enclosing scope excluding globals. This is important because the default behavior for binding is to search the local namespace first. The statement allows encapsulated code to rebind variables outside of the local scope besides the global (module) scope.
def foo():
a = 1
def bar():
nonlocal a
a = 2
bar()
print(a) # Output: 2
On Python 2, use a mutable object (like a list, or dict) and mutate the value instead of reassigning a variable:
def foo():
a = []
def bar():
a.append(1)
bar()
bar()
print a
foo()
Outputs:
[1, 1]
You can use an empty class to hold a temporary scope. It's like the mutable but a bit prettier.
def outer_fn():
class FnScope:
b = 5
c = 6
def inner_fn():
FnScope.b += 1
FnScope.c += FnScope.b
inner_fn()
inner_fn()
inner_fn()
This yields the following interactive output:
>>> outer_fn()
8 27
>>> fs = FnScope()
NameError: name 'FnScope' is not defined
I'm a little new to Python, but I've read a bit about this. I believe the best you're going to get is similar to the Java work-around, which is to wrap your outer variable in a list.
def A():
b = [1]
def B():
b[0] = 2
B()
print(b[0])
# The output is '2'
Edit: I guess this was probably true before Python 3. Looks like nonlocal is your answer.
No you cannot, at least in this way.
Because the "set operation" will create a new name in the current scope, which covers the outer one.
I don't know if there is an attribute of a function that gives the __dict__ of the outer space of the function when this outer space isn't the global space == the module, which is the case when the function is a nested function, in Python 3.
But in Python 2, as far as I know, there isn't such an attribute.
So the only possibilities to do what you want is:
1) using a mutable object, as said by others
2)
def A() :
b = 1
print 'b before B() ==', b
def B() :
b = 10
print 'b ==', b
return b
b = B()
print 'b after B() ==', b
A()
result
b before B() == 1
b == 10
b after B() == 10
.
Nota
The solution of Cédric Julien has a drawback:
def A() :
global b # N1
b = 1
print ' b in function B before executing C() :', b
def B() :
global b # N2
print ' b in function B before assigning b = 2 :', b
b = 2
print ' b in function B after assigning b = 2 :', b
B()
print ' b in function A , after execution of B()', b
b = 450
print 'global b , before execution of A() :', b
A()
print 'global b , after execution of A() :', b
result
global b , before execution of A() : 450
b in function B before executing B() : 1
b in function B before assigning b = 2 : 1
b in function B after assigning b = 2 : 2
b in function A , after execution of B() 2
global b , after execution of A() : 2
The global b after execution of A() has been modified and it may be not whished so
That's the case only if there is an object with identifier b in the global namespace
The short answer that will just work automagically
I created a python library for solving this specific problem. It is released under the unlisence so use it however you wish. You can install it with pip install seapie or check out the home page here https://github.com/hirsimaki-markus/SEAPIE
user#pc:home$ pip install seapie
from seapie import Seapie as seapie
def A():
b = 1
def B():
seapie(1, "b=2")
print(b)
B()
A()
outputs
2
the arguments have following meaning:
The first argument is execution scope. 0 would mean local B(), 1 means parent A() and 2 would mean grandparent <module> aka global
The second argument is a string or code object you want to execute in the given scope
You can also call it without arguments for interactive shell inside your program
The long answer
This is more complicated. Seapie works by editing the frames in call stack using CPython api. CPython is the de facto standard so most people don't have to worry about it.
The magic words you are probably most likely interesed in if you are reading this are the following:
frame = sys._getframe(1) # 1 stands for previous frame
parent_locals = frame.f_locals # true dictionary of parent locals
parent_globals = frame.f_globals # true dictionary of parent globals
exec(codeblock, parent_globals, parent_locals)
ctypes.pythonapi.PyFrame_LocalsToFast(ctypes.py_object(frame),ctypes.c_int(1))
# the magic value 1 stands for ability to introduce new variables. 0 for update-only
The latter will force updates to pass into local scope. local scopes are however optimized differently than global scope so intoducing new objects has some problems when you try to call them directly if they are not initialized in any way. I will copy few ways to circumvent these problems from the github page
Assingn, import and define your objects beforehand
Assingn placeholder to your objects beforehand
Reassign object to itself in main program to update symbol table: x = locals()["x"]
Use exec() in main program instead of directly calling to avoid optimization. Instead of calling x do: exec("x")
If you are feeling that using exec() is not something you want to go with you can
emulate the behaviour by updating the the true local dictionary (not the one returned by locals()). I will copy an example from https://faster-cpython.readthedocs.io/mutable.html
import sys
import ctypes
def hack():
# Get the frame object of the caller
frame = sys._getframe(1)
frame.f_locals['x'] = "hack!"
# Force an update of locals array from locals dict
ctypes.pythonapi.PyFrame_LocalsToFast(ctypes.py_object(frame),
ctypes.c_int(0))
def func():
x = 1
hack()
print(x)
func()
Output:
hack!
I don't think you should want to do this. Functions that can alter things in their enclosing context are dangerous, as that context may be written without the knowledge of the function.
You could make it explicit, either by making B a public method and C a private method in a class (the best way probably); or by using a mutable type such as a list and passing it explicitly to C:
def A():
x = [0]
def B(var):
var[0] = 1
B(x)
print x
A()
For anyone looking at this much later on a safer but heavier workaround is. Without a need to pass variables as parameters.
def outer():
a = [1]
def inner(a=a):
a[0] += 1
inner()
return a[0]
You can, but you'll have to use the global statment (not a really good solution as always when using global variables, but it works):
def A():
global b
b = 1
def B():
global b
print( b )
b = 2
B()
A()
I want to call b() without making it a global function.
def a():
def b():
print(0)
a.b()
>> AttributeError: 'function' object has no attribute 'b'
Is this possible or do i have to make it global?
One way to do this would be to have a return b:
def a():
def b():
print(0)
return b
a()() # prints '0'
b = a()
b() # also prints '0'
In general, you can only access variables that are declared inside a function if they are returned.
This is a pattern you'll see quite frequently in decorator functions, since a decorator typically creates a "wrapper" function locally and then returns the wrapper function as its output.
You certainly can have a nested function. Functions are objects and therefore can have attributes.
def outer():
print ("outer")
def inner():
print("inner")
outer.a = inner # here .a is an attribute of outer
outer()
outer.a()
It's important that you run outer() before running outer.a() because "outer" needs to define "inner".
Might someone explain me why this function is not working ? Shouldn't the "nonlocal" statement makes x understandable in g, and therefore in h ?
def f():
def g():
nonlocal x
x= 1
def h():
print(x)
>>> SyntaxError: no binding for nonlocal 'x' found
Edit : I used nonlocal in order not to define x anywhere else than in g() : I have to define several variables in my code, and want to do it in a function init_var(). For lisibility, I want to avoid declaring them in my main function. Is there a way to adapt the previous code for this aim ?
From docs:
Names listed in a nonlocal statement, unlike those listed in a global statement, must refer to pre-existing bindings in an enclosing scope (the scope in which a new binding should be created cannot be determined unambiguously).
Your x is not pre-existing at the point of nonlocal. Try x = None just before def g(): to create a binding for nonlocal to refer to.
The ambiguity problem stated by the docs are easy to see here:
def f():
def g():
def h():
def i():
def j():
nonlocal x
Which functions should have access to x, and which shouldn't? On the other hand, here it is clear:
def f():
def g():
def h():
x = None
def i():
def j():
nonlocal x
In this case, f and g don't know x, while h, i and j do.
Not sure whether what you are trying really helps readability. If you want to to structure your code, you might want to consider using a class and (instance) attributes. That being said, if you want to avoid multiple assignment lines, you can use attributes of the outer function:
>>> def f():
... def g():
... f.a = 5
... def h():
... print(f.a)
... g()
... h()
...
>>> f()
5
I'm tinkering around with Python. I have two functions. The first one calls the second, and from the second I am trying to get the value of a local variable within the first, like so:
def b():
local_var = 8
a()
def a():
#get b::local_var here?
I understand that it is possible in python to print out the stack, but I was wondering about accessing the variables and memory within those functions.
Is this even possible?
yes you can, just pass the variable in the function
def b():
local_var = 8
a(local_var) #1
def a(LV): #2
print LV
1
you passed the variable
2
created a new variable LV and assigned the local_var value to LV
Variables that are defined inside a function body have a local scope, and those defined outside have a global scope.
This means that local variables can be accessed only inside the function in which they are declared, whereas global variables can be accessed throughout the program body by all functions. When you call a function, the variables declared inside it are brought into scope.
So in this case you can use 2 way :
1. define a global variable :
>>> def b():
... global local_var
... local_var=8
... a()
...
>>> def a():
... print local_var
...
>>> a
8
2.pass the variable in a() as its argument :
>>> def b():
... local_var=8
... a(local_var)
...
>>> def a(arg):
... print arg
...
>>> a
8