# What does "late binding closures" mean? [duplicate]

I have a back-ground of C++ and trying to learn some python.

Whilst i understand virtual functions for C++, I unfortunately do not understand what is meant by late binding of closures in python.

Copy-pasted from a tutorial:

``````functions = []
for n in [1, 2, 3]:
def func(x):
return n*x
functions.append(func)

# You would expect this to print [2, 4, 6]
print(
'calling a list of bad closures and output is: {}'
.format(str([function(2) for function in functions]))
)
``````

What exactly is happening here? When the function is appended in to the list, what values does it have? Can someone please simplify this code for me to understand?

Notice this, you can create functions on runtime, more or less like `lambdas` in c++. So basically you are iterating over a list, making `n` take values `1,2 and 3`

``````for n in [1, 2, 3]:
def func(x):
return n*x
``````

so, by each iteration you are building a function named `func`, with takes a value and multiplies it for `n`. By appending it to the functions list you will have this functions stored, so you can iterate over the list to call the functions.

``````[function(2) for function in functions]
``````

By doing this you call each of the functions stored with the value `2`, you would expect this to output `[2, 4, 6]` (`[1*2, 2*2, 3*2]`), but instead it returns `[6, 6, 6]`, WHY?, thats because every function use `n` for its computation, so they are not really doing `1*x, 2*x and 3*x` but actually `n*x` and since `n` is bonded in last time to `3` all functions are doing `3*2` which becomes `6`.

Play around with the python console to check it properly.

In the language of C++, a pointer to the function is what's being appended to the list. After the `for` loop, `functions` contains pointers to three different functions (`func(x) = n * x`, `func(x) = n * x` and `func(x) = n * x`). Note the dependency on n. As n changes, so will the behavior of these functions, and they are all equivalent.

In the second part of the code, the pointers are extracted from the list and each of the three functions is evaluated with an argument of `2`.

Here's a further example to clarify. Imagine we do this:

``````>>> functions
[<function func at 0x0239AA70>, <function func at 0x0239AAB0>, <function func at 0x0239AB30>]
>>> g = functions[2]
>>> g
<function func at 0x0239AB30>
>>> g(10)
20
>>> g(100)
200
``````

What we're seeing in that first lines is that functions contains pointers to three different functions. The next line extracts the third pointer from the list (which refers to `func(x) = n * x`) and assigns it to g. Effectively, we have defined a function `g(x) = n * x` with this call. We can now evaluate `g` with arguments.

Note that since all functions depend on `n`, you could change `n`, and the behavior would change.

``````>>> n = 100
>>> g(10)
1000
``````
• But would this not yeild [2 4 6] instead of [6 6 6]
– Bobo
Apr 6, 2016 at 22:53
• Daniel's answer is correct - he caught something I didn't. They all refer to n, and since n has settled at a value of 2 at the end, all functions will behave in the exact same way. Apr 6, 2016 at 23:01
• I've amended to mention the dependency on n, and am leaving the solution posted to clarify the connection to pointers in C++. Apr 6, 2016 at 23:07