Dead simple, just nest your functions:

```
def make_multiplier(x):
def multiplier(y):
return x * y
return multiplier
```

Nested functions automatically look up unknown variables (`x`

in this case) from their surrounding scope, using the value of `x`

as it was when the outer function was called. The thing to remember here is that functions are just objects too, you can store them in a variable just like you can with other python objects, and defer calling them.

This gives:

```
>>> def make_multiplier(x):
... def multiplier(y):
... return x * y
... return multiplier
...
>>> f = make_multiplier(10)
>>> f(1)
10
>>> f(2)
20
>>> g = make_multiplier(5)
>>> g(1)
5
>>> f(3)
30
```

Note how `g`

was given a different value for `x`

, which is independent from the value for `x`

in `f`

.

You could use a lambda as well; lambdas are just anonymous functions limited to one expression; that's enough here:

```
def make_multiplier(x):
return lambda y: x * y
```

Another alternative technique is binding `x`

to a keyword parameter, which means you could override it if you so wish:

```
def make_multiplier(x):
def multiply(y, x=x):
return x * y
return multiply
```

or the lambda version:

```
def make_multiplier(x):
return lambda y, x=x: x * y
```

and then pass in one or two arguments to the returned callable:

```
>>> f = make_multiplier(10)
>>> f(5)
50
>>> f(5, 3)
15
```